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Clinical Anatomy
for Your Pocket
Douglas J. Gould, Ph.D.
Associate Professor, Division of Anatomy
The Ohio State University College of Medicine
Columbus, Ohio
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9 8 7 6 5 4 3 2 1
Library of Congress Cataloging-in-Publication Data
Gould, Douglas J.
Clinical anatomy for your pocket / Douglas J. Gould.
p. ; cm.
Includes index.
ISBN-13: 978-0-7817-9193-9 (pbk. : alk. paper)
ISBN-10: 0-7817-9193-6 (pbk. : alk. paper) 1. Human anatomy—
Outlines, syllabi, etc. I. Title.
[DNLM: 1. Anatomy. QS 4 G696c 2009]
QM31.G68 2009
611—dc22
2008024080
DISCLAIMER
Care has been taken to confirm the accuracy of the information present and
to describe generally accepted practices. However, the authors, editors, and publisher are not responsible for errors or omissions or for any consequences from
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Preface
Health professions’ curricula around the world are continually evolving: new discoveries, techniques, applications, and
content areas compete for increasingly limited time with traditional basic science topics such as gross anatomy. It is in
this context that the foundations established in gross
anatomy become increasingly important and relevant for
absorbing and applying our ever-expanding knowledge of
the human body. As a result of the progressively more
crowded curricular landscape, students and instructors are
finding new ways to maximize precious contact, preparation,
and study time through more efficient, high-yield presentation and study methods.
Clinical Anatomy for Your Pocket is designed to serve the
time-crunched student. The presentation of gross anatomy
in bullet and table format streamlines study and exam
preparation. This pocket size, quick reference book is
portable, practical, and necessary; even at this small size,
nothing is omitted and a large number of clinically significant facts, mnemonics, and easy-to-learn concepts are used
to complement the tables and inform the reader.
I am confident that Clinical Anatomy for Your Pocket will
greatly benefit all students attempting to learn clinically relevant anatomy in a variety of settings, including all graduate
and professional gross anatomy programs.
iii
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Dedication
I dedicate this book to my mother—Margaret.
My first teacher.
Acknowledgments
I would like to thank the student reviewers for their input
into this book: I hope that I have done you justice and created the learning tool that you need. I would also like to
thank Dr. Robert DePhilip, the faculty reviewer of Clinical
Anatomy for Your Pocket, whose suggestions have proved
invaluable in creating an accurate and functional tool for
students.
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Contents
Preface iii
Dedication and Acknowledgments
iv
1 Thorax . . . . . . . . . . . . . . . . . . . . . . . . 1
2 Abdomen . . . . . . . . . . . . . . . . . . . . . 33
3 Pelvis . . . . . . . . . . . . . . . . . . . . . . . . 77
4 Back . . . . . . . . . . . . . . . . . . . . . . . 113
5 Lower Limb . . . . . . . . . . . . . . . . . . 126
6 Upper Limb . . . . . . . . . . . . . . . . . . 158
7 Head . . . . . . . . . . . . . . . . . . . . . . . . 196
8 Neck . . . . . . . . . . . . . . . . . . . . . . . . 237
List of Mnemonics
Index 261
260
v
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Thorax
1
INTRODUCTION
The thorax is that portion of the trunk inferior to the neck
(superior thoracic aperture) and superior to the diaphragm,
to which the pectoral girdle and upper limbs are attached.
THORACIC WALL
The bones of the thoracic wall are the ribs and sternum.
Ribs 3–9 possess characteristics common to the majority of
ribs and so are considered “typical,” whereas ribs 1–2 and
10–12 have specializations or are lacking typical characteristics and so are considered “atypical.”
Bones of the thoracic wall
Bone
Typical
ribs (3–9)
Characteristic
Head
Neck
Tubercle
Body
Atypical
ribs (1–2,
10–12 )
• 1st and 2nd
ribs—heads
• Ribs 10–12
sternal
attachments
Significance
Bears 2 facets that articulate with
vertebra of same number and the
vertebra superior to it
Joins head with body of rib
• Articulates with transverse process
of vertebra of same number
• Located at junction of neck and body
• Bears pronounced angle
• Inferior internal border has costal
groove for intercostal
neurovascular elements
• The heads of the first 2 ribs only
attach to one vertebral body, unlike
typical ribs that attach to two
• The 1st and 2nd ribs have
additional tubercles for muscle
attachments
(continued)
1
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CLINICAL ANATOMY FOR YOUR POCKET
Bones of the thoracic wall (continued)
Bone
Characteristic
Significance
• Ribs 10–12 attach indirectly (rib 10)
or not at all to the sternum (ribs
11–12, the floating ribs)
Thoracic
vertebrae (12)
Body
Supports weight
Spinous process
Serve for muscle attachments
Transverse
process
Sternum
Laminae and
pedicles
Form vertebral arch that encloses
spinal cord
Vertebral
foramen
• Formed from vertebral arch and
posterior aspect of vertebral body
• Encloses spinal cord
• Successive vertebral foramen form
vertebral canal
Vertebral
notches—
superior and
inferior
Inferior and superior notches of
adjacent vertebrae form
intervertebral foramen that permits
passage of spinal nerves between
the vertebral canal and periphery
Articulating
processes—
superior (2) and
inferior (2)
Form zygapophyseal joints with
articulating processes on adjacent
vertebrae
Manubrium
• Superior part of sternum
• Superior border bears jugular notch
• Clavicular notches (2) are found on
each side of the jugular notch for
articulation with the clavicles
Sternal angle
• Landmark for the 2nd ribs’ costal
cartilage articulation with the
sternum
• Marks articulation between
manubrium and body
Body
Bears costal notches along lateral
border for articulation with costal
cartilages
Xiphoid process
• Most inferior part of sternum
• Landmark for central tendon of
diaphragm, superior margin of liver,
and inferior border of heart
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CHAPTER 1 | THORAX
3
Additional Concept
True, False, and Floating Ribs
Ribs 1–7 are considered “true” ribs, as they attach to the
sternum via their individual costal cartilages; ribs 8–10 are
considered “false” ribs, as they attach indirectly to the sternum via the costal cartilages of more superior ribs; ribs
11–12 are considered “floating” ribs, as they do not connect
to the sternum.
Clinical Significance
Rib Fracture
Fracture of the upper ribs may injure the lungs and of lower
ribs may damage the liver or spleen or may tear the
diaphragm. All rib fractures are painful owing to the broken
pieces moving during respiration, coughing, sneezing, or
laughing.
Sternal Puncture
A wide-bore needle may be used to harvest bone marrow
from the sternum for transplantation or biopsy.
Muscles of the thoracic wall
(Figures 1-2 and 1-4)
Muscle
External
intercostal
Internal
intercostal
Innermost
intercostal
Transverse
thoracic
Proximal
attachment
Inferior
aspect of ribs
Distal
Attachment Innervation
Superior
Intercostal
aspect of ribs nerves
Posterior inferior Posterior
aspect of
aspect of
sternum
costal
cartilages 2–6
Subcostal Deep aspect of Superior
lower ribs, near aspect
angles
of 2–3 ribs
below
proximal
attachment
Main Actions
Elevate ribs
Depress and
elevate ribs
Depress ribs
Depress and
elevate ribs
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Muscles of the thoracic wall (continued)
Proximal
Muscle attachment
Diaphragm Sternum,
inferior 6 ribs
and their costal
cartilages, medial
& lateral arcuate
ligaments, and
1st 3 lumbar
vertebrae
Levator
T7–T11
costarum transverse
processes
Serratus
posterior
superior
Serratus
posterior
inferior
Distal
Attachment
Central
tendon of
the diaphragm
Subjacent ribs
between
tubercle and
angle
Nuchal ligament, 2nd–4th ribs
C7–T3 spinous superior
processes
borders
T11–L2 spinous 8th–12th ribs
processes
inferior borders,
near angles
Innervation
Motor:
phrenic;
sensory:
phrenic and
intercostal
nerves
Main Actions
Increases
the volume
of the thorax
to cause
inspiration
C8–T11
posterior
rami
Elevate ribs
2nd–5th
intercostals
9th–11th
Depress ribs
intercostals
and subcostal
Lung
Visceral pleura
Pleural cavity
Needle
Parietal pleura
Innermost intercostal
muscle
Intercostal vein,
artery, nerve
Internal intercostal
muscle
External intercostal
muscle
Tube
FIGURE 1-1. Thoracocentesis. An intercostal nerve block (needle
in image) produces anesthesia of an intercostal space by introduction of an anesthetic agent around the intercostal nerve and its collaterals. The tube in the diagram indicates the position for thoracocentesis. (From Dudek RW, Louis TM. High-Yield Gross Anatomy.
3rd ed. Baltimore: Lippincott Williams & Wilkins; 2008:56.)
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CHAPTER 1 | THORAX
5
Sternum
T8
Diaphragm
T10
Inferior
vena cava
Esophagus
T12
Aorta
Celiac trunk
Superior
mesenteric artery
FIGURE 1-2. Holes in diaphragm. There are three large apertures in the diaphragm for major structures to pass to and from
the thorax into the abdomen. The caval opening for the inferior
vena cava (IVC), most anterior, is at the T8 level and to the right
of the midline; the esophageal hiatus, intermediate, is at T10 and
to the left of the midline; the aortic hiatus for the aorta passes
posterior to the vertebral attachment of the diaphragm in the
midline at T12. (From Moore KL, Dalley AF. Clinically Oriented
Anatomy. 5th ed. Baltimore: Lippincott Williams & Wilkins;
2006:329.)
Additional Concept
Diaphragm
The diaphragm has three openings that permit passage of
structures between the thorax and abdomen. These openings are found at T8—caval foramen, T10—esophageal hiatus, and T12—aortic hiatus.
Clinical Significance
Phrenic Nerve Injury
Phrenic nerve injury results in hemiparalysis of the
diaphragm and paradoxical movement during inspiration.
Instead of descending during inspiration, the paralyzed
half ascends in response to increased intra-abdominal
pressure.
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CLINICAL ANATOMY FOR YOUR POCKET
Nerves of the thoracic wall
(Figures 1-1 and 1-4)
Nerve
Origin
Structures Innervated
Intercostals
Anterior rami
of T1–T11
Anterior
rami of T12
Intercostal muscles and parietal pleura
Subcostal
Abdominal wall musculature and
parietal pleura
Rami
communicantes
Connect
intercostals
and subcostal
nerves to
sympathetic
trunk
• White—convey presynaptic
sympathetic fibers from spinal nerve
to sympathetic chain and visceral
afferents to spinal nerves
• Gray—convey postsynaptic
sympathetic fibers from the
sympathetic chain to spinal nerve
Sympathetic
trunk
Sympathetic
chain ganglia
(paravertebral
ganglia)
Composed of sympathetic ganglia
containing postsynaptic sympathetic
cell bodies connected by ascending
and descending fibers
Thoracic
splanchnics
Sympathetic
chain:
• Greater—
T5–T9
• Lesser—
T10–T11
• Least—T12
Convey presynaptic sympathetic fibers
to the prevertebral ganglia of the
abdomen; convey visceral afferents to
the sympathetic chain
Arterial supply of the thoracic wall
(Figures 1-1 and 1-4)
Artery
Origin
Description
Internal
thoracic
Subclavian
Gives rise to anterior intercostals and
musculophrenic
Anterior
Internal
intercostals thoracic (1–6) and
musculophrenic (7–9)
Supplies intercostal muscles and
parietal pleura
Posterior
Supreme intercostal
intercostals (1–2) and thoracic aorta
Subcostal
Thoracic aorta
Supplies anterolateral abdominal
musculature
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CHAPTER 1 | THORAX
7
Additional Concept
Venous Drainage
Venous drainage of the thoracic wall generally parallels arterial supply. However, the posterior intercostal veins drain to
the azygos system, which is discussed with the posterior
mediastinum.
Joints of the thoracic wall
Joint
Type
Articulation
1st
sternocostal
Cartilaginous
1st costal
Joint strengthened by
cartilage
sternocostal radiate
with manubrium ligaments
2nd–7th
sternocostal
Synovial
2nd–7th costal
cartilages with
sternum
Sternoclavicular
Synovial
Sternal end of
• Divided into two
clavicle with
compartments by
manubrium and
articular disc
1st costal cartil- • Joint strengthened
age
by anterior and
posterior sternoclavicular and costoclavicular ligaments
Manubriosternal
Cartilaginous
Manubrium with Joint often fuses in
body of sternum older people
Xiphisternal
Structure
Xiphoid process
with body of
sternum
Interchondral
• 6th–9th:
synovial
• 9th–10th:
fibrous
Costal cartilages Strengthened by
of adjacent ribs interchondral
6–10
ligaments
Costochondral
Cartilaginous
Costal cartilage • Bound together by
with end of rib
periosteum
• Little if any
movement permitted
Intervertebral
Symphysis
Adjacent verte- Strengthened by
bral bodies
anterior and posterior
longitudinal ligaments
and the anular ligament
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Joints of the thoracic wall (continued)
Joint
Costovertebral
Type
Synovial
Costotransverse
Articulation
Structure
Head of ribs with • Strengthened by
vertebral bodies
radiate and intraat same level
articular ligaments
and the
• 1st, 11th, 12th, and
vertebral body
and sometimes 10th
superior to it
ribs articulate only
with vertebral body
of same level
Tubercle of rib • Strengthened by
with transverse
lateral and superior
process of
costotransverse
vertebral body
ligaments
at same level
• 11th and 12th ribs do
not participate in
costotransverse
joints
BREAST
The breast extends from the sternum to the midaxillary line
and from ribs 2–6. It rests on the pectoral fascia and the fascia over serratus anterior.
Structure of the breast
(Figure 1-3)
Structure
Mammary
glands
Areola
Nipple
Description
Significance
• Modified sweat glands
• Accessory reproductive
• Arranged in 15–20 lobules
organs in the female
• Contained within the
breast
• The skin around the nipple • Turns a darker color
• Studded with sebaceous
during pregnancy
glands that form eleva• Stimulation from the
tions
suckling infant triggers
ejection and production of
milk—the let-down reflex
• Round, raised area of skin Stimulation from the suckling
in the center of the areola infant triggers erection of
• Surrounded by circularly
the nipple and the ejection
arranged smooth muscle and production of milk
fibers that cause erection
on stimulation
(continued)
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CHAPTER 1 | THORAX
9
Structure of the breast (continued)
Structure
Description
Suspensory
ligaments
Connective tissue supports • Provide support for the
that extend from the dermis
breast
to the pectoral fascia
• If invaded by carcinoma,
the ligaments shorten and
produce skin dimpling and
nipple inversion
Significance
Lactiferous duct 15–20 total, open onto
the nipple
Drain the mammary glandular
tissue
Lactiferous sinus Expansion of lactiferous duct
near the nipple
Function as a milk reservoir
during lactation
Axillary process Extension of breast tissue
into the axilla
High percentage of breast
tumors occurs here
Axillary tail
Serratus
anterior
External
abdominal
oblique
Areola
Nipple
Lobes
Lactiferous ducts
Fat
Lactiferous sinus
FIGURE 1-3. Breast, anterior view. (From Tank PW, Gest TR.
LWW Atlas of Anatomy. Baltimore: Lippincott Williams & Wilkins;
2009:39.)
Additional Concept
The size and shape of the adult female breast is due to its
contained fat, which forms the bulk of the breast tissue.
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CLINICAL ANATOMY FOR YOUR POCKET
Clinical Significance
Quadrants
The breast is divided into four quadrants for the anatomic
location and description of pathologies. The inferior quadrants are less vascular and, therefore, the preferred area for
surgical incisions when necessary.
Retromammary Space
Between the breast and the pectoral fascia is the retromammary space, which permits movement of the breast on the
thoracic wall. Diminishment of this movement may indicate
pathology.
Nerves of the breast
Nerve
Origin
Anterior cutaneous Intercostal
branches
nerves 4–6
Lateral cutaneous
branches
Structures Innervated
• Sensory to skin of breast
• Postsynaptic sympathetic fibers to
the smooth muscle of the nipple and
blood vessels
Arterial supply of the breast
Artery
Origin
Description
Medial mammary
branches
Internal thoracic
Supplies medial aspect of breast
Lateral mammary
branches
Lateral thoracic
Supplies lateral aspect of breast
Thoracoacromial
Axillary
Supplies breast through pectoral
branches
Posterior
intercostals
Thoracic aorta
Supplies lateral aspect of breast
through lateral mammary branches
Anterior intercostals
Additional Concept
Venous drainage of the breast parallels the arterial supply
and drains mainly to the axillary vein, whereas some venous
drainage is to the internal thoracic vein.
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CHAPTER 1 | THORAX
11
Lymphatics of the breast
Knowledge of the lymphatic drainage of the breast is important owing to the high incidence of breast carcinoma.
Lymphatic
Structure
Subareolar
lymphatic
plexus
Axillary
lymph nodes
Parasternal
lymph nodes
Description
Located deep to the nipple,
areola, and around the
lobules of the glandular
tissue of the breast
Composed of pectoral,
humeral, subscapular,
central, and apical nodes
Located along the sternum
Abdominal
lymph nodes
Drainage
Drains lymph from the nipple,
areola, and glandular tissue
of the breast to regional nodes
Drains ⬃75% of lymph from
the breast—the lateral
quadrant in particular
Drains mostly lymph from
the medial quadrant of the
breast
Drains mostly lymph from the
inferior quadrants of the breast
Located inferior to the diaphragm in the abdominal
cavity; also known as inferior
phrenic lymph nodes
Infraclavicular Located inferior to the
Drains lymph from the axillary
lymph nodes clavicle
lymph nodes
SupraclaviLocated superior to the
cular lymph
clavicle
nodes
Subclavian
Formed from efferent vessels • On the right—joins with
lymphatic
of the axillary nodes, apical
bronchomediastinal &
trunk
in particular
jugular trunks to form
the right lymphatic duct
• On the left—joins the
thoracic duct
Additional Concept
The contralateral breast receives a significant amount of
lymphatic drainage.
MISCELLANEOUS
Thoracic cavity
The thoracic cavity is bounded by the thoracic wall—a flexible musculoskeletal cage. It is divided into 2 laterally placed
pleural cavities and a central region—the mediastinum. The
thoracic cavity contains the heart, lungs, thymus, trachea,
esophagus, and multiple neurovascular elements.
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Thoracic cavity (continued)
Area
Superior
thoracic
aperture
Structure
Boundaries:
• Anterior—manubrium
• Posterior—T1
• Lateral—1st ribs and their
costal cartilages
Inferior
thoracic
aperture
Boundaries:
• Anterior—xiphisternal
joint
• Anterolateral—costal
cartilages of ribs 7–10—
the costal margin
• Posterior—T12
• Posterolateral—11th and
12th ribs
Space between adjacent ribs Contains intercostal muscles
and costal cartilages
and intercostal neurovascular
elements
• Superior border—superior Contains superior vena cava,
thoracic aperture
brachiocephalic veins, arch of
• Inferior border—plane
aorta, thoracic duct, esophagus,
passing from sternal angle trachea, left & right vagus
through the T4–T5
nerves, left recurrent laryngeal
vertebral level
nerve and left & right phrenic
• Lateral borders—pleural nerves, and the thymus
cavities
• Superior border—plane
Subdivided by the pericardial
passing from sternal angle sac into anterior, middle, and
through the T4–T5
posterior mediastina
vertebral level
• Inferior border—diaphragm
• Lateral borders—pleural
cavities
• Most anterior part of the Contains the thymus, loose
inferior mediastinum
connective tissue, sternoperi• Bounded anteriorly by the cardial ligaments, lymph
sternum and transverse
nodes, and fat
thoracic muscle and posteriorly by the pericardium
Middle part of inferior
Contains the heart, pericardial
mediastinum
sac, roots of the great vessels,
arch of the azygos vein, and
primary bronchi
Most posterior part of the
Contains the thoracic aorta,
inferior mediastinum
esophagus, azygos and
hemiazygos veins, vagus nerves,
thoracic duct, sympathetic
trunks, and splanchnic nerves
Intercostal
space
Superior
mediastinum
Inferior
mediastinum
Anterior
mediastinum
Middle
mediastinum
Posterior
mediastinum
12
Significance
• Also known as the thoracic
inlet
• Allows passage of the
trachea, esophagus, and
neurovascular elements
between the thoracic cavity
and the neck
• Also known as the thoracic
outlet
• Closed by the diaphragm
• Allows for passage of
the inferior vena cava, aorta,
and esophagus between the
thoracic cavity and abdomen
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CHAPTER 1 | THORAX
13
Mnemonic
V-A-N: Intercostal neurovascular elements are arranged
from superior to inferior as:
intercostal Vein
intercostal Artery
intercostal Nerve
Clinical Significance
Thoracic Outlet Syndrome
Obstructions in the root of the neck may affect structures
passing through the superior thoracic aperture; problems are
often manifested in the upper limb.
Posterior mediastinum
Structure
Significance
Organ
Esophagus
• Located posterior to the trachea, anterior to vertebral bodies
• Begins at inferior aspect of pharynx (C6)
• Terminates by entering the stomach after passing through the
esophageal hiatus (T10) of the diaphragm
Nerve
Esophageal • Formed of parasympathetic fibers from the vagus nerves and
plexus
sympathetic fibers from sympathetic chain ganglia and the
greater splanchnic nerve
• Supply glands and musculature of inferior 2/3 of esophagus
Sympathetic • Located on either side of the vertebral column along posterior
trunks
wall of the thorax
• Chain of paravertebral ganglia containing presynaptic
sympathetic cell bodies
• Ganglia connected by presynaptic sympathetic and visceral
afferent fibers
• Connected to thoracic spinal nerves by rami communicantes
Thoracic
splanchnic
nerves
• Greater, lesser, and least
• Convey presynaptic sympathetic fibers from T5–T12
to prevertebral ganglia of the abdomen
• Convey visceral afferents from the abdomen
Vessel
Thoracic
aorta
• Continuation of the arch of the aorta; becomes abdominal
aorta after passing through the aortic hiatus (T12) of the
diaphragm
• Found to the left of thoracic vertebral bodies
(continued)
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Posterior mediastinum (continued)
Structure
Bronchial
arteries
Pericardial
arteries
Posterior
intercostal
arteries—9
pairs
Superior
phrenic
arteries
Esophageal
arteries
Subcostal
arteries
Thoracic
duct
Significance
• Left: branches of thoracic aorta
• Right: branches of posterior intercostal arteries
• Supply oxygenated blood to the tissues of the lung
• Branches of thoracic aorta and pericardiophrenic arteries
• Supply the pericardium
• Branches of thoracic aorta
• Supply intercostal spaces 3–11
• Branches of the thoracic aorta
• Supply the diaphragm
• Branches of the thoracic aorta
• Supply the esophagus
• Branches of the thoracic aorta
• Supply body wall inferior to the 12th ribs
• Conveys lymph from entire body, except the right upper limb,
right aspect of the thorax and right side of head & neck
• Begins in abdomen at chyle cistern and empties into the
junction of left internal jugular vein and left subclavian vein
• Found along the vertebral column between the azygos vein
and esophagus
Azygos vein • Drains mediastinum and posterior thoracic & abdominal walls
on the right; found on right side of vertebral bodies
• Begins in the abdomen and terminates by emptying into
superior vena cava
• Receives hemiazygos and accessory hemiazygos veins at the
T8–T9 vertebral level
Hemiazygos • Drains mediastinum and posterior thoracic and abdominal
vein
walls on the left as high as T9 vertebral level, where it
crosses to the right side to enter the azygos vein
Accessory • Drains mediastinum and posterior upper thoracic wall on the
hemiazygos
left as far inferiorly as T8 vertebral level where it crosses to
vein
the right side to enter the azygos vein
The trachea is presented with the superior mediastinum.
Clinical Significance
Esophageal Constrictions
Three constrictions of the esophagus occur where it is
compressed by, from superior to inferior: (1) arch of the
aorta, (2) left main bronchus, and (3) the diaphragm. These
constrictions are areas susceptible to damage from swallowing caustic substances and are places where ingested objects
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Esophagus
Trachea
Sympathetic
chain
Azygos
vein
Right
primary
bronchus
Intercostal
vein, artery,
and nerve
Left
primary
bronchus
Thoracic
duct
Diaphragm
Cut edge
of costal
pleura
FIGURE 1-4. Posterior mediastinum viewed from the right: parietal
pleura is intact on left side and partially removed on right. A portion of
esophagus, between bifurcation of trachea and diaphragm, is also
removed. (From Agur AMR, Dalley AF. Grant’s Atlas of Anatomy, 12th
ed. Baltimore: Lippincott Williams & Wilkins; 2009:82.)
may become lodged; the constrictions are visible on radiographs and are useful landmarks.
Azygos Veins
The azygos system provides a collateral pathway for venous
blood that connects the superior and inferior vena cavae.
Mnemonic
Four birds of the thorax:
esophaGOOSE
vaGOOSE nerve
azyGOOSE vein
thoracic DUCK
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Superior mediastinum
(Figure 1-5)
Structure Significance
Ligamentum • Remnant of the ductus arteriosus (shunt for blood from the
arteriosum
fetal pulmonary trunk to aorta)
• Connects left pulmonary artery to the arch of the aorta
• Left recurrent laryngeal nerve wraps around to then ascend to
the larynx
Organ
Thymus
• Located mostly in the superior mediastinum
• Lymphatic organ that involutes after puberty and is replaced
by fat
Trachea
• Located anterior to the esophagus
• Begins at cricoid cartilage of the larynx
• Terminates at the level of the sternal angle into 2 main bronchi
• Skeleton of posteriorly oriented U-shaped rings, posterior
deficiency spanned by the trachealis muscle
Esophagus • Located posterior to the trachea and anterior to the vertebral
bodies
• Begins at inferior aspect of the pharynx, terminates by entering
the stomach after passing through the esophageal hiatus
(T10) of the diaphragm
Nerve
Left vagus • Found anterior to the arch of the aorta where it gives off the
left recurrent laryngeal nerve
• Passes posterior to the root of the lung, where it ramifies
to contribute to the pulmonary, cardiac, and esophageal
plexuses
Right vagus • Found anterior to the right subclavian artery, where it gives
off the right recurrent laryngeal nerve
• Passes posterior to the root of the lung, where it ramifies
to contribute to the pulmonary, cardiac, and esophageal
plexuses
Left
• Branch of left vagus nerve as it passes over the anterior
recurrent
surface of the arch of the aorta
laryngeal
• Ascends to the larynx between the trachea and esophagus
Right
• Branch of the right vagus nerve as it passes over the anterior
recurrent
surface of the right subclavian artery
laryngeal
• Ascends to the larynx between the trachea and esophagus in
the tracheoesophageal groove
Left phrenic • Passes anterior to the root of the lung, found between the
nerve
fibrous pericardium and mediastinal pleura
Right
• Sole motor supply to the diaphragm
phrenic
• Sensory to central aspects of diaphragm
nerve
(continued)
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Superior mediastinum (continued)
Structure
Vessel
Significance
Left
brachiocephalic vein
• Formed by junction of the internal jugular and subclavian veins
• The left and right brachiocephalic veins join to form the
superior vena cava
Right
brachiocephalic vein
Superior
vena cava
Arch of the
aorta
Drains most venous blood from structures superior to the
thorax into the right atrium
• Continuation of the ascending aorta; becomes the thoracic
aorta as it descends
• Gives off 3 branches in the superior mediastinum:
1. brachiocephalic trunk
2. left common carotid artery
3. left subclavian artery
• Left vagus nerve courses on its anterior surface
Brachioce- • 1st branch of the arch of the aorta
phalic trunk • Terminates by dividing into the right common carotid and right
subclavian arteries
• Indirectly supplies the right side of head and neck and right
upper limb through its branches
Left
common
carotid
artery
• 2nd branch of the arch of the aorta
• Terminates in the neck by dividing into internal & external
carotid arteries
• Indirectly supplies left side of head and neck through its
branches
Left subclavian
artery
• 3rd branch of the arch of the aorta
• Continues as it passes over the lateral border of the 1st rib to
become the left axillary artery
• Supplies the left upper limb
The thoracic duct is presented with the posterior mediastinum.
Additional Concept
Lymphatic Drainage
In addition to the brachiocephalic veins forming at the junction of the internal jugular and subclavian veins, it is also the
point where the right lymphatic duct joins the venous system on the right and the thoracic duct on the left—known
as the jugular angle.
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Structure of the pericardial cavity
(Figure 1-5)
Structure
Pericardial
sac
Description
Formed of 2 layers:
1. outer—fibrous
pericardium
2. inner—parietal layer of
serous pericardium
Visceral layer
of serous
pericardium
Parietal layer
of serous pericardium
Pericardial
cavity
Mesothelium—simple
squamous epithelium
Fibrous pericardium
Transverse
sinus
Oblique sinus
Potential space between
the layers of serous pericardium
• Strong collagenous outer
layer of the pericardial
sac
• Fuses with adventitia of
great vessels, central
tendon of the diaphragm,
and sternum
Extension of the pericardial
cavity posterior to the pulmonary trunk and aorta
Extension of the pericardial
cavity on the posterior
aspect of the heart
Significance
• Double-layered fibroserous
sac that encloses the heart
• Fused with adventitia of the
great vessels
• Attached to the deep surface
of the sternum by the sternopericardial ligament
• Fuses with the central tendon
of the diaphragm; therefore,
moves during respiration
Also known as the
epicardium—the outer layer
of the heart
Lines inner surface of fibrous
pericardium
• Filled with serous fluid
• Allows heart to beat in a
friction free environment
• Inflexible nature prevents
overfilling of the heart
• Phrenic nerve travels
inferiorly through the thorax
on its lateral surface
Allows for control of blood out
of the heart during surgery
Ends as a cul-de-sac between
the pulmonary veins
MEDIASTINUM
Additional Concept
Pericardium
The pericardium receives its arterial supply from the pericardiacophrenic arteries, which run with the phrenic nerve
between the mediastinal pleura and the fibrous pericardium.
Sensory innervation to the pericardium is carried via the
phrenic nerves.
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Clinical Significance
Pericarditis
Inflammation of the pericardium that may cause chest pain
and pericardial friction rub, which can be detected during
auscultation.
Pericardial Tamponade
An increase in fluid in the pericardial cavity (e.g., from
chronic inflammation) may decrease the efficiency of the
heart as it is compressed. Pericardiocentesis is the drainage
of excess fluid from the pericardial sac.
Structure of the heart
(Figure 1-6)
The heart is contained within the pericardial sac. It is
located within the middle mediastinum, left of the median
plane in the thorax. The heart is essentially a cone-shaped
muscular pump, the apex of which is directed anteroinferiorly to the left and the base posterolaterally to the right. The
base of the heart is the location of the superior vena cava,
ascending aorta and pulmonary trunk.
Structure
Heart
surfaces
Description
• Anterior (sternocostal)
• Inferior (diaphragmatic)
• Right and left pulmonary
surfaces
Pectinate
muscles
Muscular ridges found on
the walls of the atria
Trabeculae
carneae
Muscular ridges found on
the walls of the ventricles
Significance
• Anterior—formed mainly by
right ventricle
• Diaphragmatic—formed
mainly by left ventricle
(some right ventricle)
related to central tendon
of diaphragm
• Left pulmonary—formed
mainly by left ventricle,
related to cardiac notch of
left lung
• Right pulmonary—formed
mainly by right atrium
• Found in primitive parts of
both atria
• Presence indicates “rough”
part of atrial walls
• Found in primitive parts of
both ventricles
• Serve to increase mechanical
advantage during ventricular
contraction
• Presence indicates “rough”
part of ventricular walls
(continued)
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Structure of the heart (continued)
Structure
Papillary
muscles
Description
Conical muscular projections
from the ventricular wall
that attach to chordae
tendineae
Significance
Contract immediately before
ventricular contraction to pull
chordae tendineae taut to
prevent backflow during
ventricular contraction
(systole)
Chordae
Attached to margins of
Hold valve cusps taut during
tendineae
atrioventricular valves and
ventricular contraction to
papillary muscles
prevent backflow (regurgitation)
Interatrial
Muscular septum separating Right side—location of fossa
septum
the atria
ovalis: remnant of foramen
ovale, an embryologic shunt
for blood from the right atrium
to the left atrium
Interventricular Composed of a membranous Separates right and left
septum
(superior) part and a muscular ventricles
(inferior) part
Right and
• Right—3 cusps
• Right—permits passage of
left atrioventri- (tricuspid)
blood from right atrium to
cular valves
• Left—2 cusps
right ventricle and prevents
(bicuspid, mitral)
backflow in the reverse
direction
• Left—permits passage of
blood from left atrium to left
ventricle and prevents
backflow in the reverse
direction
Fibrous
• Collagenous skeleton of
• Provides stability and attachskeleton
heart
ment for valve cusps and
• Forms fibrous rings that
muscle fibers
surround heart orifices
• Provides electrical insulation
• Fibrous trigones connect
between the atria and
rings
ventricles
Right atrium Forms right border of heart Receives deoxygenated blood
from the superior and inferior
vena cavae & coronary sinus
Sinus venarum Smooth-walled part of right Formed from incorporation of
atrium
the embryonic sinus venosus
during development
Sulcus
Groove on outside of right
External representation of
terminalis
atrium
meeting of primitive atrium and
sinus venarum derived tissues
Crista
Ridge on inside of right
Internal representation of
terminalis
atrium
meeting of primitive atrium and
sinus venarum derived tissues
(continued)
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Structure of the heart (continued)
Structure
Right auricle
Left atrium
Left auricle
Description
Small, conical projection
from right atrium
Forms most of base of heart
Finger-like projection from
left atrium
Forms inferior border of
heart
Smooth-walled superior
aspect of right ventricle
Significance
Remnant of primitive right
atrium
Receives oxygenated blood
from 4 pulmonary veins
Remnant of primitive left
atrium
Receives blood from right
atrium
Entry to the pulmonary trunk
Right
ventricle
Conus
arteriosus
(infundibulum)
SupraventriMuscular ridge on inside of Separates rough part of
cular crest
right ventricle
chamber from smooth-walled
part of chamber
Septomarginal Muscular ridge that extends Conveys right atrioventricular
trabecula
from the inferior aspect of
bundle—part of conduction
(moderator
the interventricular septum system, to the anterior
band)
to the base of the anterior- papillary muscle
most papillary muscle
Pulmonary
• 3 semilunar cusps
Prevents backflow
valve
• Located at apex of conus (regurgitation) of blood during
arteriosus
ventricular relaxation (diastole)
Pulmonary
Located between cup-shaped Prevent valve cusps from
sinuses
semilunar valve leaflets and sticking to pulmonary trunk
dilated pulmonary trunk wall wall during ventricular
contraction
Left ventricle Forms apex and left border Thicker wall (4⫻) than right
of heart
ventricle because it pumps
against greater pressure
Aortic vestiSmooth-walled superior
Entry to ascending aorta
bule
aspect of left ventricle
Aortic valve
• 3 semilunar cusps
Prevent backflow
• Located near origin of
(regurgitation) of blood during
ascending aorta
ventricular relaxation (diastole)
Aortic sinuses Located between cup• Prevent valve cusps from
shaped semilunar valve
sticking to ascending aorta
leaflets and dilated ascendwall during ventricular
ing aorta wall
contraction
• Right and left sinus give
origin to the right and left
coronary arteries
respectively
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Right brachiocephalic vein
Left brachiocephalic vein
Left subclavian artery
Left common carotid artery
Brachiocephalic trunk
Superior vena cava
Arch of aorta
Ligamentum
arteriosum
Reflection of
pericardium
Pulmonary
trunk
Conus
arteriosus
Left auricle
Right auricle
Pectinate
muscles
Fossa
ovalis
Right
atrium
Right
coronary
artery
Tricuspid valve
Papillary
muscle
Inferior
vena cava
Abdominal
aorta
Anterior interventricular
artery
Left
ventricle
Chordae
tendineae
Muscular
interventricular
septum
Apex of heart
Moderator
band
FIGURE 1-5. Heart. Right interior view. (Asset provided by
Anatomical Chart Company.)
Additional Concept
Heart is a “Double Pump”
Right side of the heart: right atrium receives deoxygenated
blood from the vena cavae; the right ventricle pumps this
blood to the lungs for oxygenation via the pulmonary trunk.
Left side of the heart: left atrium receives oxygenated blood
from the pulmonary veins; the left ventricle pumps this
blood to the body via the aorta.
Walls of the Heart
The walls of all 4 chambers of the heart consist of the same
three layers from superficial to deep:
epicardium—layer of mesothelium; also known as visceral
layer of serous pericardium
myocardium—middle layer composed of cardiac muscle
tissue
endocardium—layer of endothelium that lines heart
chambers and valves
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Auscultation
Auscultation of the valves: each of the 4 valves of the heart
is heard best at specific locations on the thoracic wall:
bicuspid valve—5th intercostal space on the left
tricuspid valve—4th intercostal space to the left of the
sternum
pulmonary valve—2nd intercostal space to the left of the
sternum
aortic valve—2nd intercostal space to the right of the
sternum
Ventricles
Ventricle characteristics—fewer, larger papillary muscles,
more numerous trabeculae carneae, fewer, thicker atrioventricular valve cusps and fewer, thicker chordae tendineae are
characteristics of the left ventricle owing to its increased
workload relative to the right ventricle.
Clinical Significance
Foramen Ovale
Incomplete closure of the foramen ovale occurs in
15%–25% of adults, it is typically asymptomatic.
Septal Defects
The membranous part of the interventricular septum is
the most common site of interventricular septal defects;
severe defects may result in hypertension and cardiac failure.
Nerves of the heart
Nerve
Superficial
cardiac plexus
Origin
Structures Innervated
• Sympathetic— • Sympathetic—terminate on SA and
sympathetic
AV nodes, increases heart rate and
trunks
force of contraction, produces vasodi• Parasymlation of coronary arteries
pathetic—vagus • Parasympathetic—terminate on SA
nerves
and AV nodes and coronary arteries,
• Located inferior
decreases heart rate and force of
to the aortic arch contraction, causes vasoconstriction
and anterior to
of coronary arteries
the right pulmonary artery
(continued)
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Nerves of the heart (continued)
Nerve
Deep cardiac
plexus
Origin
Structures Innervated
• Sympathetic—
sympathetic
trunks
• Parasympathetic—vagus
nerves
• Located posterior
to the aortic arch
and anterior to
the tracheal
bifurcation
Visceral
Fibers travel with • Fibers traveling with sympathetics
afferents of
sympathetics and
convey pain information to T1–T5
cardiac plexuses in the vagus nerve
spinal cord segments; these fibers are
involved in pain referred to the left
upper limb during heart attack
• Fibers traveling in the vagus nerve
innervate baroreceptors and
chemoreceptors that monitor pressure
and gas concentrations in the blood
Sinuatrial (SA) Group of selfPacemaker of the heart, gives an
node
excitable cardiac impulse ~70 times per minute
muscle cells
located near the
junction of the
superior vena cava
and the right atrium
Atrioventricular Located on the
• Receives impulse from wall of atria
(AV) node
right side of the
that was initiated in the SA node
atrial septum near • Passes impulse to ventricles via the
the opening of the
AV bundle
coronary sinus
AV bundle
Fiber bundle pass- Only bridge of conduction system
(Bundle of His) ing from the AV
between atria and ventricles
node to membranous part of interventricular septum,
where it terminates
by dividing into
bundle branches
Right and left
Formed by termina- • Supply cardiac muscle cells of
bundle branches tion of AV bundle,
ventricular walls through ramifications
follow interventri(subendocardial branches)
cular septum to
• Right bundle branch sends a branch
ventricular walls
through the septomarginal trabeculae
where they ramify
of the right ventricle to the anterior
papillary muscle
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Additional Concept
Postsynaptic parasympathetic ganglia are located near the
SA and AV nodes.
Vessels of the heart
Artery
Right coronary
SA nodal branch
Right marginal
branch
Posterior
interventricular
AV nodal branch
Left coronary
Anterior interventricular (left
anterior descending
Left circumflex
branch
Left marginal
branch
Posterior interventricular branch
Vein
Coronary sinus
Great cardiac
Middle cardiac
Small cardiac
Oblique vein of
left atrium
Left posterior
ventricular
Left marginal
Anterior cardiac
Smallest cardiac
Origin
Right aortic
sinus
Description
Supplies right atrium & ventricle, left
ventricle, SA and AV nodes, and interventricular septum
Right coronary Supplies SA node
artery
Supplies right ventricle and apex of
heart
Supplies both ventricles and posterior
aspect of interventricular septum
Supplies AV node
Left aortic sinus Supplies left atrium and ventricle, right
ventricle, and interventricular septum
Left coronary Supplies right and left ventricles and
artery
interventricular septum
Supplies left atrium and ventricle
Left circumflex
branch
Left coronary
artery
Termination
Right atrium
Supplies left ventricle
Supplies interventricular septum
Description
Large vein on posterior aspect of heart
in coronary sulcus; accepts most venous
blood from the heart before emptying
into right atrium
Coronary sinus Runs with anterior interventricular
artery in anterior interventricular sulcus;
becomes coronary sinus on posterior
aspect of heart
Runs with posterior interventricular
artery in posterior interventricular sulcus
Runs with right marginal branch
Remnant of primordial left superior
vena cava
Drains posterior aspect of left ventricle
Right atrium
Chambers of
heart
Drains left margin of heart
Drains right ventricle
Drains walls of all 4 chambers of heart
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Additional Concept
Venous Drainage
Venous drainage of the heart is said to be “indirect” because
most venous blood enters the coronary sinus before being
emptied into the right atrium.
Clinical Significance
Coronary Arteries
Coronary artery disease is a leading cause of death, typically
as a result of decreased blood flow to the heart. An area of
myocardium that has undergone necrosis (as a result of lack
of blood) constitutes a myocardial infarction or heart attack.
LUNGS AND PLEURA
Structure of the pleural cavities
(Figures 1-4, 1-6 and 1-7)
Structure
Endothoracic
fascia
Costal pleura
Mediastinal
pleura
Diaphragmatic
pleura
Cervical pleura
Pulmonary
ligament
Description
Fibroareolar layer between
parietal pleura and thoracic
wall
Significance
Invests muscular and skeletal
elements of thoracic wall and
adheres parietal pleura to
inner surface of thoracic wall
Parietal pleura adherent to
Intercostal and phrenic nerves
the inner surface of the ribs provide sensory innervation;
and costal cartilages via the therefore, pain may be referred
endothoracic fascia
to the thoracic wall and neck
Parietal pleura adherent to
the outer surface of the
mediastinum via the
endothoracic fascia
Parietal pleura adherent to
the superior surface of the
diaphragm via the endothoracic fascia
• Parietal pleura extending
into the root of the neck
• Covered by the suprapleural membrane—a
regional thickening of the
endothoracic fascia
Double-layered fold of pleura Area of reflection—visceral
extending inferiorly from the pleura from the surface of
root of the lung
the lung is continuous with
parietal pleura
(continued)
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Structure of the pleural cavities (continued)
Structure
Description
Significance
Visceral pleura
Covers all surfaces of each
lung
• Continuous with parietal
pleura at the root of the
lung
• No or very limited pain
afferents
Pleural cavity
Potential space between the • Contains capillary layer of
visceral and parietal pleura
serous fluid
• Negative pressure here
maintains lungs in inflated
state
Left and right
costodiaphragmatic recesses
Potential space between
costal and diaphragmatic
pleura
During inspiration the lungs
enter the recesses
Left and right
Potential spaces between
costomediastinal costal and mediastinal
recess
pleura
Superior
vena cava
Right atrium
Pulmonary trunk
Left ventricle
IVC and
pericardium
Pericardium
FIGURE 1-6. Anteroposterior chest radiograph. Radiograph
shows the various components of the heart and great vessels. (From
Dudek RW, Louis TM. High-Yield Gross Anatomy. 3rd ed. Baltimore:
Lippincott Williams & Wilkins; 2008:85.)
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FIGURE 1-7. Pneumothorax. A pneumothorax is air in the plural
cavity; this has the effect of collapsing the elastic lung as the negative
pressure maintaining it in its expanded state is lost. Posteroanterior
radiograph shows a left apical (straight arrows) and subpulmonic
(curved arrow) pneumothorax in a 41-year-old woman with respiratory distress syndrome. (From Dudek RW, Louis TM. High-Yield
Gross Anatomy. 3rd ed. Baltimore: Lippincott Williams & Wilkins;
2008:64.)
Clinical Significance
Cervical Pleura
The cervical pleura and apex of the lung are subject to
injury from neck wounds because the pleural cavity extends
into the root of the neck.
Tracheobronchial tree
(Figure 1-4)
Structure
Description
Significance
Tracheal rings
20 U-shaped hyaline
cartilages
• Keep trachea patent
• Posteriorly oriented opening
of U-shaped cartilage allows
for expansion of the esophagus during swallowing
(continued)
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Tracheobronchial tree (continued)
Structure
Description
Significance
Trachealis
Layer of smooth muscle
Spans posterior deficiency of
tracheal rings
Right and left
main bronchi
• Extend from tracheal bifurcation to hilum of lungs
• Supported by U-shaped
hyaline cartilage
• Terminate by dividing into
lobar bronchi
• Form part of root of the lung
• Enter lung at hilum
• Right main bronchus is shorter, wider and more vertically
oriented than the left
• Hyaline cartilage keeps both
main bronchi patent
Carina
Keel-like septum projecting
superiorly at the bifurcation
of the trachea
Visible on radiographs;
displacement may indicate
thoracic pathology
Lobar (secondary) • Supported by hyaline
bronchi (3; right)
cartilage
• Hyaline cartilage keeps
lobar bronchi patent
Lobar (secondary) • Extend from main bronchi
until termination as segbronchi (2; left)
mental bronchi
• Each lobar bronchus
corresponds to a lobe
of the lung
Segmental
• Supported by hyaline
(tertiary) bronchi cartilage
• Formed from terminal
branches of lobar bronchi
• Supply bronchopulmonary
segments—right lung: 10
segmental bronchi
• Left lung: 8–10 segmental
bronchi
Bronchopulmonary segments
Pyramidal-shaped with
• Each receives a segmental
apex directed toward root of
bronchus and a branch of
lung and base toward outer
both pulmonary and
surface of lung
bronchial arteries
• Intersegmental veins
help identify boundaries
between segments for
resection
Additional Concept
Bronchopulmonary Segments
■
■
Right lung—Superior lobe: Apical, Posterior, Anterior
Middle lobe: Lateral, Medial
Inferior lobe: Superior, Anterior basal, Posterior basal,
Lateral basal, Medial basal
Left lung—Superior lobe: Superior division—Apicoposterior,
Anterior; Lingular division—Superior, Inferior
Inferior lobe: superior, Anterior basal, posterior basal,
Lateral basal, Medial basal
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CLINICAL ANATOMY FOR YOUR POCKET
Mnemonic
Inhale a Bite, Goes Down the Right
Inhaled objects more likely to enter right bronchus, as it is
wider, shorter, and more vertical than the left.
Structure of the lungs
The lungs are the elastic organs of respiration. Their
function depends upon surface tension in the pleural
cavity keeping the parietal and visceral layers of pleura
together.
Structure
Description
Significance
Right lung
3 lobes (superior, middle,
and inferior) separated by
a horizontal and oblique
fissure
The right lung is larger than
the left
Left lung
2 lobes (superior and inferior) The left lung is smaller than
separated by an oblique
the right owing to the position
fissure
of the heart
Cardiac notch
Indentation of superior lobe
of left lung along the
anteroinferior border
Lingula
Tongue-like process of
superior lobe of the left
lung inferior to the cardiac
notch
Root of lung
• Formed by pulmonary and
bronchial arteries, pulmonary and bronchial veins,
lymphatics, nerves, and
main bronchi
• Enclosed by pleural
sleeve
Hilum of lung
Located on medial aspect of Root of lung enters lung here
lungs
Result of the heart and
pericardial sac bulging to the
left
Located on medial aspect of
lung, site at which structures
enter and leave the lung
Horizontal and • Right lung has 1 horizontal Separate lungs into lobes:
oblique fissures
and 1 oblique fissure
right lung 3, left lung 2
• Left lung has 1 oblique
fissure
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31
Nerves of the lungs
Nerve
Origin
Structures Innervated
Anterior
• Sympathetic— • Sympathetic—inhibit bronchial
pulmonary plexus
sympathetic
smooth muscle (bronchodilate) and
trunks
glands, motor to vessels
• Parasym(vasoconstrict)
pathetic—vagus • Parasympathetic—inhibit vessel
nerves
musculature (vasodilate), motor to
• Located anterior
smooth muscle of bronchial tree
to root of lung
(bronchoconstrict) and glands
(stimulates mucous secretion)
Posterior
• Sympathetic—
pulmonary plexus
sympathetic
trunks
• Parasympathetic—vagus
nerves
• Located posterior
to root of lung
Visceral afferents Fibers travel in
of pulmonary
vagus nerve
plexuses
Sensory to tissues of the lungs and
bronchi—touch, stretch, temperature,
and chemical irritants
Additional Concept
Postsynaptic parasympathetic ganglia are found distributed
throughout both plexuses.
Vessels of the lungs
Artery
Origin
Description
Right and left
pulmonary
Pulmonary
trunk
Give rise to lobar arteries; carry
deoxygenated blood to the lungs
Lobar
Pulmonary
arteries
3 right and 2 left lobar arteries carry
deoxygenated blood to each lobe of the
lung; accompany secondary bronchi
Right and left
bronchial
• Right—
posterior
intercostal
artery
• Left—
thoracic aorta
Termination
Left atrium
Supply oxygenated blood to the tissues
of the bronchial tree
Vein
Right and left
pulmonary
Description
2 pairs of pulmonary veins convey
oxygenated blood to the left atrium
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Vessels of the lungs (continued)
Vein
Termination
Right and left
bronchial
• Right—
Drain deoxygenated blood from the
azygos vein bronchial tree
• Left—
accessory
hemiazygos
vein
Description
Additional Concept
Ligamentum Arteriosum
The ligamentum arteriosum is the remnant of the ductus
arteriosus—an embryologic shunt connecting the arch of
the aorta and the left pulmonary artery.
Lymphatics of the lungs
Lymphatic
structure
Description
Drainage
Superficial
Located immediately deep to Drains to bronchopulmonary
lymphatic plexus visceral pleura
lymph nodes
Deep lymphatic
plexus
Located in the submucosa of Drains to pulmonary lymph
bronchi and connective
nodes
tissue around the bronchi
Pulmonary
lymph nodes
Located along the lobar
(secondary) bronchi
Drain to bronchopulmonary
lymph nodes
Bronchopulmonary (hilar)
lymph nodes
Located in the hilum of the
lung(s)
Drain to tracheobronchial
lymph nodes
Superior and
Located at the bifurcation of Drain to bronchomediastinal
inferior tracheo- the trachea
trunks (right and left)
bronchial lymph
nodes
Additional Concept
The superficial and deep lymphatic plexuses of the lungs
communicate freely.
Clinical Significance
Bronchopulmonary nodes are an early site of tumor
metastases in bronchogenic carcinoma.
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Abdomen
2
INTRODUCTION
The abdomen is that portion of the trunk inferior to the
diaphragm and superior to the pelvis with which it is continuous. The abdomen extends inferiorly to the superior
pelvic aperture.
AREAS AND FASCIA OF THE ABDOMEN
Areas of the abdomen
Area
Abdominal cavity
Regions (9)
Structure
Boundaries:
• Superior—
diaphragm
• Inferior—
continuous with
pelvic cavity at
superior pelvic
aperture
• Anterolateral—
muscular abdominal
wall
• Posterior—
vertebral column
Divided into regions
by:
• 2 horizontal
planes—subcostal
and transtubercular
• 2 verticalmidclavicular
planes
Significance
Larger, superior part of the
abdominopelvic cavity
• Regions:
• Right and left
hypochondriac
• Right and left inguinal
• Right and left lateral
• Epigastric
• Umbilical
• Pubic
• Used for description of
organ location or location
of pathologic processes
(continued)
33
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CLINICAL ANATOMY FOR YOUR POCKET
Areas of the abdomen (continued)
Area
Quadrants (4)
Inguinal canal
Subinguinal space
Structure
Divided into
quadrants by a
horizontal
(transumbilical) and a
vertical (median)
plane
• 4–6 cm long,
inferomedially
directed passage
extending between
the deep and
superficial inguinal
rings
• Walls of canal:
• Anterior—
external oblique
aponeurosis
• Posterior—
transversalis
fascia and
medially the
conjoint tendon
• Roof—
transversalis
fascia and arching
fibers of the
internal oblique
and transversus
abdominis
• Floor—iliopubic
tract, inguinal
ligament, and
lacunar ligament
from lateral to
medial
Space located deep to
the inguinal ligament
and iliopubic tract
Significance
• Quadrants:
• Right and left upper
• Right and left lower
• Used for description of
organ location or location
of pathologic processes
• Transmits the spermatic
cord or round ligament of
the uterus, ilioinguinal
nerve, and the genital
branch of the
genitofemoral nerve
• One result of the oblique
nature of canal is that the
superficial and deep rings
do not overlap; therefore,
increases in intraabdominal pressure force
the canal “closed” to
prevent herniation
Serves to connect the
abdominopelvic cavity with
the lower limb
Additional Concepts
Deep Inguinal Ring
The deep inguinal ring, the internal opening of the inguinal
canal, is an evagination of transversalis fascia, just superior
to the middle of the inguinal ligament and immediately lateral to the inferior epigastric vessels.
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35
Superficial Inguinal Ring
The superficial inguinal ring is the slitlike external opening of the inguinal canal in the aponeurosis of the external
oblique muscle, just superior to the public tubercle. The
medial and lateral margins of the opening are the medial
and lateral crura, which are prevented from spreading
apart by intercrural fibers.
Structures of the abdominal wall
Feature
Superficial fascia
Description
Inferior to umbilicus, it is composed of 2 layers:
• A superficial fatty layer (Camper’s fascia)
• A deep membranous layer (Scarpa’s fascia)
Investing fascia
Covers the muscles (4) forming the muscular wall of
the abdomen
• Lines inner surface of abdominal wall
• Named according to muscle it lines:
• Transversalis fascia lines the transverse
abdominal muscle
• Divided into anterior, middle, and posterior
layers
• Middle and posterior layers enclose the
intrinsic muscles of the back—relatively
thick, provides attachment for anterolateral
abdominal wall muscles
• Anterior layer is fascia of quadratus
lumborum muscle—thickened superiorly to
form lateral arcuate ligament, inferiorly
attaches to iliolumbar ligament
• Lumbar fascia lines the quadratus lumborum
• Psoas fascia lines the psoas major muscle
• It is thickened superiorly to form the medial
arcuate ligament
• It is continuous with the thoracolumbar
fascia
• Lines abdominopelvic cavity
• Located deep to the endoabdominal fascia
from which it is separated by extraperitoneal
fat
• Formed by the aponeuroses of the external and
internal oblique and transverse abdominal
• The sheath contains the rectus abdominis,
the superior and inferior epigastric vessels,
the pyramidalis, segmental nerves, and
lymphatics
Endoabdominal fascia
Parietal peritoneum
Rectus sheath
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Structures of the abdominal wall (continued)
Feature
Description
Conjoint tendon
• Fused tendons of internal oblique and transverse
abdominal at their attachment to the pubis
• Forms medial portion of posterior wall of inguinal
canal
Inguinal ligament
• Free, fibrous inferior edge of external oblique,
extending between the anterior superior iliac
spine and pubic tubercle
• Laterally provides attachment for transverse
abdominal and internal oblique
Iliopubic tract
• Thickened inferior margin of the transversalis
fascia
• Forms portion of floor and posterior wall of
inguinal canal
• Located posterior and parallel to the inguinal
ligament
• Forms the anterior boundary of the subinguinal
space
Lacunar ligament
• Medial-most internally directed portion of the
inguinal ligament
• Forms portion of floor of inguinal canal
• Attaches to superior pubic ramus
Pectineal ligament
Continuation of lacunar ligament as it runs along
the pectin pubis
Additional Concept
Rectus Sheath
Rectus sheath—Above a line midway between the
pubic symphysis and umbilicus the anterior layer of the
sheath is formed by the external oblique and the anterior portion of the internal oblique, which splits to contribute to the posterior layer of the sheath with the
transverse abdominal muscle. Below this line, the
sheath is deficient posteriorly, with the aponeurosis of
all three muscles forming the anterior layer of the
sheath, with only the transversalis fascia separating the
rectus abdominis from the parietal peritoneum. The
lower edge of the aponeurotic “line” of the posterior
sheath is the arcuate line.
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CHAPTER 2 | ABDOMEN
37
ABDOMINAL WALL
Muscles of the abdominal wall
Proximal
Distal
Muscle
Attachment
Attachment Innervation
Anterolateral Abdominal Wall
T5–T12
Linea alba,
Ribs 5–12
External
pubic crest
oblique
and
tubercle,
anterior iliac
crest
Thoracolumbar
fascia,
anterior iliac
crest, inguinal
ligament
Transverse Costal
abdominal cartilages
7–12,
thoracolumbar
fascia, iliac
crest, inguinal
ligament
Pubic
Rectus
abdominis symphysis and
pubic crest
Ribs 10–12,
linea alba,
pectin pubis
(via conjoint
tendon)
Linea alba,
pubic crest,
pectin pubis
(via conjoint
tendon)
T6–T12 and
L1
Xiphoid
process,
costal
cartilages
5–7
T6–T12
Pyramidalis Pubis
Linea alba
T12
Internal
oblique
Spermatic Cord and Scrotum
Cremaster Found within cremaster fascia
Dartos
Found within superficial
fascia of scrotum
Posterior Abdominal Wall
Pectin pubis
T12–L1
Psoas
vertebrae and
minor
intervertebral
discs
Main Actions
Compress,
protect, and
support
abdominal
contents; flex
and rotate
trunk
Compress,
protect, and
support
abdominal
contents
Compress,
protect, and
support
abdominal
contents; flex
trunk (lumbar
region)
Tenses linea
alba
Genitofemoral
Autonomic
Draws testes
closer to body
Wrinkles skin
of scrotum
L1
Weak trunk
flexor; often
absent
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Muscles of the abdominal wall (continued)
Proximal
Attachment
T12–L5
vertebrae and
intervertebral
discs
Iliac fossa
Iliacus
Quadratus 12th rib
lumborum
Muscle
Psoas
major
Distal
Attachment
Lesser
trochanter
of femur
Innervation
L2–L4
Iliolumbar
ligament and
iliac crest
Femoral
T12–L4
Main Actions
Together form
iliopsoas—the
chief flexor of
the thigh
Extends and
laterally rotates
vertebral column
Skeletal elements (attachments) discussed above are presented
with the thorax and pelvis.
Clinical Significance
Guarding Reflex
In addition to the functions mentioned previously, the flat
abdominal wall muscles provide protection to abdominal
viscera through involuntary contraction when touched or
when an underlying structure is inflamed, becoming rigid;
this is known as the “guarding” reflex.
Mnemonics
Orientation
Hands-in-your-pockets orientation:
When you put your hands in your pants pockets, your fingers have the orientation of fibers of the external
oblique inferomedially.
Internal oblique fibers are at right angles to external
oblique fibers.
Psoas Major
Innervation of psoas major: Hitting L2, L3, and L4 makes
the psoas sore.
Vessels of the abdominal wall
Artery
Origin
Musculophrenic
Internal thoracic
Superior epigastric
Inferior epigastric External iliac
Description
Supplies: diaphragm, anterolateral
abdominal wall
Supplies: rectus abdominis, anterolateral abdominal wall
(continued)
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CHAPTER 2 | ABDOMEN
39
Vessels of the abdominal wall (continued)
Artery
Superficial
epigastric
Superficial circumflex iliac
Deep circumflex
iliac
Subcostal
Lumbar
(4–5 pairs)
Testicular
Artery of the
ductus deferens
Cremasteric
Vein
Pampiniform
plexus
Origin
Femoral
External iliac
Thoracic aorta
Abdominal aorta
Inferior vesical
artery
Inferior epigastric
artery
Termination
Plexus converges
to form the
testicular veins
Description
Supplies: region between umbilicus
and pubis
Supplies: inguinal region and
anterosuperior thigh
Supplies: iliacus and anterolateral
abdominal wall
Supplies: anterolateral abdominal wall
Supplies: back and posterior
abdominal wall
Supplies: testes and epididymis
Supplies: ductus deferens
Supplies: cremaster muscle and
fascia
Description
Drains the spermatic cord and testes
Additional Concept
Abdominal Aorta
The abdominal aorta is the continuation of the thoracic aorta
after it passes through the aortic hiatus of the diaphragm.The
abdominal aorta terminates by dividing into common iliac
arteries at L4 vertebral level. The abdominal aorta gives:
■
■
■
■
paired visceral branches: suprarenal, renal, and gonadal
unpaired visceral branches: celiac trunk, superior mesenteric and inferior mesenteric arteries
paired parietal: inferior phrenic and lumbar
unpaired parietal: median sacral artery.
Venous Drainage
Veins generally parallel arteries and drain into the inferior
vena cava, with the notable exception of the portal system,
which drains to the liver.
Nerves of the abdominal wall
Nerve
Origin
Thoracoabdominals T7–T11
Subcostal
T12
Structures Innervated
Anterolateral abdominal wall superior
to iliac crest
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Nerves of the abdominal wall (continued)
Nerve
Origin
Structures Innervated
Lumbar Plexus
Iliohypogastric
L1
Anterolateral abdominal wall of
inguinal and hypogastric regions
Scrotum/labia majorum, mons pubis,
medial thigh, and lower-most aspect of
anterolateral abdominal wall
Divides into genital and femoral branches;
genital branch supplies cremaster and
cutaneous innervation to anterior aspect
of scrotum; femoral branch is sensory
to anteromedial aspect of thigh
Supplies sensory innervation to
anterolateral aspect of thigh
Supplies adductor compartment of thigh
Supplies hip flexors and knee extensors
Participates in formation of sacral
plexus (L4–S4)
Ilioinguinal
Genitofemoral
L1, L2
Lateral cutaneous
nerve of the thigh
Obturator
Femoral
Lumbosacral trunk
L2, L3
L2–L4
L4, L5
Mnemonic
Lumbar Plexus
Lumbar plexus nerve roots: 2 from 1, 2 from 2, 2 from 3:
2 nerves from 1 root: ilioinguinal (L1), iliohypogastric (L1).
2 nerves from 2 roots: genitofemoral (L1–L2), lateral cutaneous nerve of the thigh (L2–L3). 2 nerves from 3
roots: obturator (L2–L4), femoral (L2–L4).
Structure of the scrotum
Feature
Wall
Arterial Supply
Posterior scrotal
branches
Anterior scrotal
branches
Cremaster
artery
Description
Double layered: skin and
superficial fascia (dartos):
contains smooth muscle
fibers—dartos muscle
Significance
• Outpouching of lower
anterior abdominal wall
• Dartos muscle receives
autonomic innervation and
functions to wrinkle the skin
Origin: perineal artery
Supplies posterior aspect
Origin: external pudendal
artery
Origin: inferior epigastric
artery
Supplies anterior aspect
Supplies the superior aspect
(continued)
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41
Structure of the scrotum (continued)
Feature
Nerve Supply
Description
Significance
Genital branch Origin: genitofemoral nerve
of genitofemoral (L1–L2)
nerve
Supplies anterolateral
surface
Anterior scrotal
nerves
Supplies anterior surface
Origin: ilioinguinal nerve
(L1)
Posterior scrotal Origin: perineal branches of
nerves
pudendal nerve (S1–S4)
Supplies posterior surface
Perineal
Origin: posterior femoral
branches of
cutaneous nerve (S2–S3)
posterior femoral
cutaneous
Supplies inferior surface
The testes and epididymis are presented with the reproductive
organs in the pelvis and perineum chapter.
Clinical Significance
Sensory Innervation of the Scrotum
As the anterior aspect of the scrotum is supplied by
branches of the ilioinguinal nerve and the posterior aspect
by the branches of the perineal and posterior femoral cutaneous nerves, care must be taken to properly anesthetize the
scrotum for surgical procedures.
Structure of the spermatic cord
The spermatic cord runs through the inguinal canal into the
scrotum. The cord contains structures coursing between the
scrotum and the abdominopelvic cavity.
Structure
Description
Significance
Fascial coverings • Internal—internal
• Internal spermatic—
of spermatic
spermatic fascia
derived from transversalis
cord
• Middle—cremaster fascia
fascia
• External—external
• Cremaster—derived
spermatic fascia
from internal oblique
• External spermatic—
derived from external
oblique
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Structure of the spermatic cord (continued)
Structure
Description
Components
Ductus deferens Tube composed of smooth
muscle
Testicular artery
Arises from abdominal aorta
Artery of the
ductus deferens
Cremasteric
artery
Pampiniform
plexus of veins
Autonomics
Arises from inferior vesical
artery
Arises from inferior
epigastric artery
Venous plexus that drains the
testes and spermatic cord
Sympathetic and
parasympathetic nerve
network
Genital branch Origin: L1–L2; divides into
of genitofemoral genital and femoral
branches
Significance
Conveys sperm from the
epididymis to the ejaculatory
duct
Supplies testes and
epididymis
Supplies ductus deferens
Supplies cremaster muscle
and fascia
Converges to form the
testicular veins
• Innervates dartos and
vessels of region
• Responsible for peristaltic
contractions during
emission
Supplies cremaster muscle
Clinical Significance
Temperature Regulation
The cremaster muscle (skeletal muscle), found with the
cremaster fascia, draws the testes toward the body in cold
temperatures as part of the cremasteric reflex. The dartos
muscle (smooth muscle) causes wrinkling of the scrotum to
draw the testes nearer the body and reduce the surface area
of the scrotum in cold temperatures.
PERITONEAL CAVITY
Structure of the peritoneal cavity
(Figure 2-1)
The peritoneal cavity is a potential, fluid-filled space
between adjacent layers of peritoneum in the abdomen. It is
divided into a lesser and a greater sac that correspond to
their embryologic origins as the right and left halves of the
intraembryonic cavity.
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43
Structure of the peritoneal cavity (continued)
Feature
Lesser sac (omental
bursa)
Superior recess of
lesser sac
Inferior recess of
lesser sac
Greater sac
Omental foramen
Paracolic gutters
Supracolic
compartment
Description
Bounded by:
• Anterior—liver,
stomach and lesser
omentum
• Posterior—diaphragm
• Right—liver
• Left—gastrosplenic
and gastrorenal
ligaments
Limited by diaphragm and
posterior leaf of coronary
ligament of the liver
Limited by fusion of
anterior and posterior
leafs of greater omentum
All of the peritoneal
cavity that is not the
lesser sac
Located posterior to the
portal triad and anterior
to the inferior vena cava
Depressions running
parallel with the
ascending and
descending colon along
the posterior abdominal
wall
Formed by the mesentery
of the transverse colon—
the transverse mesocolon
Infracolic
compartment
Subphrenic spaces
Hepatorenal recess
Superior extensions of the
peritoneal cavity between
the diaphragm and liver
Extension of peritoneal
cavity inferior to the liver
and anterior to the kidney
and suprarenal gland
Significance
• Smaller portion of the
peritoneal cavity
• Formed by embryologic
rotation of the gut
Superior extent of the
lesser sac
Inferior extent of the
lesser sac
• Larger portion of the
peritoneal cavity
• Formed by embryologic
rotation of the gut
Connection between the
lesser and greater sac
• Function as channels
that convey peritoneal
fluid
• Communication
between supra- and
infracolic compartments
Part of the peritoneal
cavity superior to the
transverse mesocolon
Part of the peritoneal
cavity inferior to the
transverse mesocolon
Separated into right and
left by the falciform
ligament
• Communicates
anteriorly with the right
subphrenic space
• Communicates with
omental bursa (lesser
sac)—fluid may drain
into recess from here
when supine
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Feature
Peritoneal Fossae
Supravesical
fossae
Medial inguinal
fossae (related to
inguinal triangles)
Lateral inguinal
fossae
Description
Significance
Between the median and
medial umbilical folds
Between the medial and
lateral umbilical folds
Potential site for a hernia
Lateral to the lateral
umbilical folds
Deep inguinal rings found
within fossae, potential
site for indirect
inguinal hernia
Potential site for a direct
inguinal hernia
Peritoneal pouches are presented with the pelvis.
Clinical Significance
Peritoneal Puncture
Occasionally it is necessary to puncture the peritoneum to
remove excess fluid (ascites) that accumulates during
inflammation, to conduct peritoneal dialysis or administer
anesthetic agents through intraperitoneal injection.
Peritoneum
(Figure 2-1)
Structure
Parietal
peritoneum
Visceral
peritoneum
Mesentery
Description
Serous membrane lining
the peritoneal cavity
• Double layer of
peritoneum connecting
intraperitoneal organs to
the abdominal wall
• Conveys neurovascular
elements and lymphatics
• Allows movement of the
organ to which it is
attached
Peritoneal Folds
Fold of parietal peritoneum
Median
extending from the apex of
umbilical fold
the bladder to the umbilicus
Fold of parietal peritoneum
Medial
found lateral to the median
umbilical
umbilical fold
folds (2)
Significance
Lines internal surface of
abdominal wall
Lines external surfaces of
abdominal organs
• The “mesentery” refers
specifically to the mesentery of the small intestine
• Other mesenteries are
named specifically for the
organs to which they are
associated (e.g., transverse
mesocolon or
mesoappendix)
Covers the median
umbilical ligament—the
remnant of the urachus
Covers the medial umbilical
ligaments—the obliterated
part of the umbilical arteries
(continued)
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Peritoneum (continued)
Structure
Description
Lateral umbilical Fold of parietal peritoneum
found lateral to the medial
folds (2)
umbilical folds
Omenta
Double layer of peritoneum
Greater
connecting greater curvature
of stomach and proximal
duodenum to adjacent organs
Lesser
• Double layer of
peritoneum connecting
lesser curvature of the
stomach and proximal
duodenum to adjacent
organs
• Forms anterior wall of
lesser sac
Associated with the Liver
Falciform
• Double layer of
ligament
peritoneum extending
from umbilicus to liver on
anterior abdominal wall
• Continuous superiorly as
left and right coronary
ligament
• Anterior formed by
Coronary
separation of leafs of
ligaments
falciform ligament
(anterior and
• Posterior is formed of
posterior)
peritoneal reflexion from
diaphragm to liver
Formed of anterior and
Triangular
posterior coronary
ligaments
ligaments
(right and left)
Round ligament
of liver
Connective tissue cord in
inferior border of falciform
ligament
Significance
Covers the inferior
epigastric vessels
3 parts:
1. Gastrophrenic
ligament—connects
stomach to diaphragm
2. Gastrosplenic
ligament—connects
stomach to spleen
3. Gastrocolic ligament—
connects stomach to
transverse colon, largest
part, anterior and posterior
layers are fused to form a
4-layered structure
2 parts:
1. Hepatogastric
ligament—connects
stomach to liver
2. Hepatoduodenal
ligament—connects
duodenum to liver, contains
portal triad: portal vein,
hepatic artery and bile duct
• Embryologic remnant of
the ventral mesentery
• Contains round ligament of
the liver in its inferior,
crescentic border
Bound the bare area of the
liver
Formed of a peritoneal
reflexion between anterior
and posterior leafs of
coronary ligaments
Embryologic remnant of the
umbilical vein
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Superior recess of
omental bursa
Liver
Lesser omentum
Falciform
ligament
Subhepatic
space
Pancreas
Stomach
Duodenum
Transverse
mesocolon
Transverse colon
Inferior recess of
omental bursa
Mesentery of
small intestine
Greater omentum
Jejunum
Ileum
Visceral peritoneum
Parietal peritoneum
Rectovesical pouch
Urinary bladder
A Right lateral view
Transverse
colon
Rectum
Supracolic
compartment
Transverse
mesocolon
Phrenicocolic
ligament
Right colic
flexure
Left colic
flexure
Tenia coli
Ascending
colon
Root of
mesentery of
small intestine
Descending
colon
Right
Right
paracolic infracolic
gutter
space
Left
Left
infracolic paracolic
space
gutter
Infracolic compartment
B Anterior view
Supracolic
compartment
(greater sac)
Omental
bursa
(lesser sac)
Infracolic
compartment
(greater sac)
FIGURE 2-1. Subdivisions of peritoneal cavity. A: This median
section of the abdominopelvic cavity shows the subdivisions of the
peritoneal cavity. B: The supracolic and infracolic compartments of
the greater sac are shown after removal of the greater omentum.The
infracolic spaces and paracolic gutters determine the flow of ascitic
fluid when inclined or upright. (From Moore KL, Dalley AF.
Clinically Oriented Anatomy. 5th ed. Baltimore: Lippincott Williams
& Wilkins; 2006:239.)
46
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47
Additional Concepts
Peritoneal Relations
Organs that are suspended by a mesentery are said to be
intraperitoneal. Organs that lack a mesentery and are only
partially covered with peritoneum are said to be extraperitoneal (retroperitoneal or subperitoneal provides more indication of their location).
Median Umbilical Ligament
The median umbilical ligament is formed by the urachus,
the obliterated portion of the allantois, connecting the apex
of the bladder with the umbilicus.
Medial Umbilical Ligaments
The medial umbilical ligaments are formed by the obliterated portions of the umbilical arteries distal to the superior vesical arteries.
Clinical Significance
Herniae
A direct inguinal hernia (acquired) exits the abdomen via
the medial inguinal fossa or inguinal triangle, which is
bounded medially by the semilunar line (lateral border of
rectus abdominis), laterally by the lateral umbilical folds and
inferiorly by the inguinal ligament.
An indirect inguinal hernia (congenital) exits the
abdomen via the deep inguinal ring and passes through the
inguinal canal into the scrotum.
Adhesions
Adhesions may develop in the peritoneal cavity as a result of
inflammation of the peritoneum (peritonitis) or previous
surgery, which may need to be removed if they compromise
the function of the viscera.
Mnemonic
Structures forming folds: IOU:
From lateral to medial:
lateral umbilical ligament: Inferior epigastric vessels
medial umbilical ligament: Obliterated umbilical artery
median umbilical ligament: Urachus
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ESOPHAGUS
Structure of the esophagus
The esophagus is a muscular tube extending from the cricoid
cartilage to the gastroesophageal junction; it enters the
abdomen through the esophageal hiatus of the diaphragm.
The nature of the musculature of the esophagus changes
throughout its course:
■
■
■
upper third—skeletal muscle
middle third—mixture of smooth and skeletal muscle
lower third—smooth muscle
Feature
Sphincters
Description
2 sphincters:
1. Upper esophageal
sphincter—skeletal
muscle
2. Lower esophageal
sphincter—smooth
muscle and skeletal
muscle of diaphragm
Innervation
• Skeletal muscle part—
recurrent branches of
the vagus nerve
• Smooth muscle part—
esophageal plexus
Arterial supply
Inferior thyroid,
esophageal, bronchial,
left gastric and left
inferior phrenic arteries
Esophageal veins empty
into the inferior thyroid,
azygos, hemiazygos and
gastric veins
Venous drainage
Significance
• Upper sphincter
composed mainly of
cricopharyngeus
• Lower sphincter—
smooth muscle and
muscular diaphragmatic
esophageal hiatus
prevent gastroesophageal reflux
Esophageal plexus—
parasympathetic fibers
from the vagus nerves and
sympathetic fibers from
sympathetic chain and
greater splanchnic nerve
Arterial supply is generally
via whatever arteries lie
near this long longitudinally oriented structure
Important contributor to
the portal-caval
anastomosis
Clinical Significance
Esophageal Varices
Esophageal varices are dilated esophageal veins that may
rupture in cases of portal hypertension.
Pyrosis
Pyrosis (heartburn) is usually the result of regurgitation of
stomach contents into the lower esophagus.
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STOMACH
Structure of the stomach
(Figure 2-3)
The stomach is the muscular organ of digestion; it produces
chyme through enzymatic digestion.
Feature
Parts
Cardia
Description
Significance
Part surrounding cardial
orifice
Fundus
Part superior to cardial
orifice
Part between fundus and
pyloric antrum
• Distal-most part of the
stomach
• Possesses smooth
muscle sphincter—
pyloric sphincter,
which guards the
pyloric orifice that
opens into the
duodenum
• Funnel-shaped
• Divided into the
pyloric antrum (wide)
and pyloric canal
(narrow)
Cardial orifice—funnelshaped opening of
stomach that receives the
esophagus
Typically dilated and gasfilled
Major part of the
stomach
Pyloric sphincter controls
release of gastric
contents into the
duodenum and prevents
reflux from duodenum
into stomach
Body
Pylorus
Curvatures
Greater
Lesser
Interior
Rugae (gastric
folds)
Directed inferior and to
the left
Directed superior and to
the right
Longer, convex curvature
Longitudinal folds of
gastric mucosa
Function to increase
surface area and allow
for distension
• Shorter, concave
curvature
• Bears the angular
incisure—outer
representation of the
junction of the body
and pyloric part
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CLINICAL ANATOMY FOR YOUR POCKET
Clinical Significance
Pylorospasm
Pylorospasm is the failure of the pyloric sphincter to
relax, which prevents food from passing from the stomach
to the duodenum, often occurs in infants and may result
in vomiting.
Vessels of the stomach
(Figure 2-4)
Artery
Celiac trunk
Origin
Abdominal aorta
Splenic
Celiac trunk
Hepatic
Gastroduodenal
Hepatic
Right gastric
Left gastric
Right gastro-omental
Celiac trunk
Gastroduodenal
Left gastro-omental
Short gastric
Vein
Left gastric
Right gastric
Left gastro-omental
Right gastro-omental
Short
Splenic
Description
• Supplies embryologic
foregut
• Gives rise to: splenic,
hepatic and left gastric
arteries
• Supplies the spleen
• Gives rise to left gastroomental and short gastric
arteries to the
stomach
• Supplies the liver
• Gives rise to gastroduodenal
and right gastric arteries to
the stomach
• Supplies the stomach,
duodenum and liver
• Gives rise to right gastroomental to the
stomach
Supplies lesser curvature of
the stomach
Supplies greater curvature of
the stomach
Supply body of stomach
Termination
Portal
Description
Splenic
Superior mesenteric
Splenic
Drain greater curvature of
stomach
Drain lesser curvature of
stomach
Drain body of stomach
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Nerves of the stomach
Nerve
Parasympathetic
Sympathetic
Visceral afferent
Origin
Vagus nerves
Structures Innervated
Anterior and posterior vagal
trunks enter abdomen
through the esophageal
hiatus
Presynaptics originate
• Presynaptic sympathetics
from the intermedioare conveyed to the celiac
lateral cell column of the
plexus/ganglia
spinal cord and travel
• Postsynaptic fibers travel
in the sympathetic
on branches of the celiac
trunks and splanchnic
trunk to the stomach
nerves to reach
• Reduces motility, activates
abdominal plexuses
sphincters, vasoconstricts
and decreases glandular
activity
Cell bodies located in
Stomach sensitive to
spinal ganglia
stretching and distension
SMALL INTESTINE
Structure of the small intestine
(Figures 2-3 and 2-5)
The small intestine extends from the pylorus to the cecum.
It is the primary site of digestion and absorption in the body.
The small intestine is divided into three parts:
1. duodenum
2. jejunum
3. ileum
Structure
Duodenum
Description
• 1st part of small
intestine
• Divided into 4 parts:
1. Superior
2. Descending
3. Horizontal
4. Ascending
• Superior part is
intraperitoneal, the
remaining parts are
retroperitoneal
Significance
• Descending part
receives the bile and
main pancreatic ducts
via hepatopancreatic
ampulla
• Ascending part
continuous with
jejunum at
duodenojejunal
junction
• 1st part referred to as
duodenal cap/bulb
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Structure of the small intestine (continued)
Structure
Duodenojejunal
junction
Description
Junction of duodenum
and jejunum, evidenced
by the duodenojejunal
flexure
Jejunum
• 2nd part of the small
intestine
• Intraperitoneal,
connected to the
posterior abdominal
wall by the mesentery
• 3rd part of the small
intestine
• Intraperitoneal,
connected to the
posterior abdominal
wall by the mesentery
Junction of the ileum
and the cecum
Ileum
Ileocecal junction
Significance
The sharp angle of the
duodenojejunal flexure is
supported by the
suspensory muscle of the
duodenum (ligament of
Treitz)—a slip of
fibromuscular tissue that
supports the flexure
Constitutes ⬃2/5 of the
small intestine distal to
the duodenum
Constitutes the distal part
of the small intestine,
extending from the
jejunum to the ileocecal
junction
Invagination of the ileum
into the cecum forms folds
superior and inferior to the
ileal orifice, forming the
ileocecal valve
Additional Concept
Distinguishing Characteristics between the Jejunum and Ileum
The jejunum has greater vascularity, longer vasa recta, fewer
and larger arterial arcades, less fat in the mesentery, more
prominent plicae circulares, and fewer lymphatic elements
than the ileum.
Vessels of the small intestine
(Figure 2-3)
The celiac trunk and gastroduodenal arteries are presented
with the vessels of the stomach.
Artery
Superior
pancreaticoduodenal
Origin
Gastroduodenal
Description
Supplies proximal part of
duodenum
(continued)
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Vessels of the small intestine (continued)
Artery
Superior mesenteric
Origin
Abdominal aorta
Inferior
pancreaticoduodenal
Arterial arcades
Superior mesenteric
Description
• Supplies alimentary canal
to left colic flexure
• Supplies embryologic
midgut
Supplies distal part of
duodenum
Gives rise to vasa recta that
supply the jejunum and ileum
Additional Concept
Venous Drainage
Venous drainage parallels arterial supply and terminates in
the portal vein.
Embryologic Arterial Supply
The descending part of the duodenum marks the transition
between the embryologic foregut and midgut, the location is
marked by anastomosis of branches of the celiac trunk
(artery of the foregut) with branches of the superior mesenteric artery (artery of the midgut).
Nerves of the small intestine
Nerve
Origin
Parasympathetic Vagal—primarily
the posterior vagal
trunk
Sympathetic
Presynaptics
originate from the
intermediolateral cell
column of the spinal
cord and travel in the
sympathetic trunks and
splanchnic nerves to
reach abdominal
plexuses
Structures Innervated
• Presynaptic parasympathetic
fibers synapse in the
myenteric and submucosal
plexuses in the wall of the
small intestine
• Increases motility and
glandular secretion and
inhibits sphincters
• Presynaptic sympathetics
are conveyed to the celiac
and superior mesenteric
plexuses/ganglia
• Postsynaptic fibers travel
on branches of the superior
mesenteric artery to the
small intestine
• Reduces motility, activates
sphincters, vasoconstricts and
decreases glandular activity
(continued)
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Nerves of the small intestine (continued)
Nerve
Origin
Visceral afferent Cell bodies located in
spinal ganglia
Structures Innervated
Small intestine sensitive
to stretching, distension,
and pain
LARGE INTESTINE
Structure of the large intestine
(Figure 2-2)
The large intestine extends from the ileocecal junction to
the anus. It is divided into four parts:
1. cecum
2. colon
3. rectum
4. anal canal
The large intestine is the part of the digestive tract distal to
the small intestine; it is primarily responsible for water and
electrolyte resorption.
Structure
Parts
Cecum
Appendix
Colon
Description
Significance
• 1st part of large intestine
• Continuous with ascending
colon
• Ileum joins it at ileocecal
junction
• Diverticulum extending
from cecum
• Possesses a mesentery—
mesoappendix
• 2nd part of large intestine
• Divided into 4 parts:
1. Ascending colon
extends from cecum to
right colic flexure
2. Transverse colon
extends from right colic
flexure to left colic
flexure
3.Descending colon
extends from left colic
flexure to sigmoid colon
4. Sigmoid colon
follows an S-shaped
course to the rectum
Mostly covered by visceral
peritoneum, although has no
mesentery
Variable location, but usually
is posterior to the cecum
• The ascending and
descending colon are retroperitoneal, although they
are only loosely fixed to
the posterior abdominal
wall by a loose connective
tissue fascia—fusion fascia and, therefore, easily
mobilized during surgery
• On the lateral aspects,
are the paracolic gutters
• The transverse and sigmoid
colon each have
mesenteries— the transverse and sigmoid
mesocolons
(continued)
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Structure of the large intestine (continued)
Structure
Description
Rectum
• 3rd part of large intestine • Dilated terminal portion—
• Extends from the sigmoid
the ampulla, retains feces
colon at S3 to the anal
until defecation
canal
• The proximal third of the
• Possesses 3 lateral flexures
rectum is covered by
that correspond to 3 transperitoneum on the anterior
verse rectal folds, which
and lateral aspect, the
correspond to thickenings
middle third only has
of the muscular wall
peritoneum on the anterior
surface, whereas the
inferior 3rd is subperitoneal
Significance
Anal canal
• 4th part of large intestine • The anorectal flexure is
• Begins at the anorectal
the primary structure that
flexure at the level of the
maintains fecal continence,
pelvic diaphragm and
it is a sharp bend maintained
extends to the anus
by tonic contraction of
• Internally possesses anal
puborectalis; its relaxation
columns—longitudinal
is necessary if defecation
ridges joined at their base
is to occur
by anal valves, anal glands • Feces compressing the
open into the anal sinuses
anal sinuses causes
(recesses formed by anal
exudation of mucus that
valves)
lubricates the anal canal
Features
Teniae coli
3 longitudinally oriented
bands of smooth muscle of
the large intestine
The longitudinal layer of
smooth muscle surrounding
the digestive tract is reduced
to 3 bands over the large
intestine
Haustra
Sacculations of the large
intestine
Slow the passage of feces
through the large intestine
Omental
appendices
Small, fatty projections
hanging from the wall of
the large intestine
Allow for reduced friction
with nearby structures during
movement of the large
intestine as feces passes
through
Additional Concept
Differences between the Small and Large Intestine
The large intestine has a larger diameter than the
small intestine and possesses teniae coli, haustra and
omental appendices, all of which are unique to the large
intestine.
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Sigmoid colon
Rectum
Ampulla of rectum
FIGURE 2-2. Anteroposterior barium radiograph showing parts
of the large intestine; note the haustra and flexures of the colon.
(From Dudek RW, Louis TM. High-Yield Gross Anatomy. 3rd ed.
Baltimore: Lippincott Williams & Wilkins; 2008:138.)
Clinical Significance
McBurney’s Point
Usual location of proximal (open end) of the appendix,
located one third of the way along an oblique line connecting the anterior superior iliac spine to the umbilicus.
Sphincters of Anal Canal
The anal canal is surrounded by two sphincters, both of
which are involved in the maintenance of fecal continence, the
internal (involuntary) and external (voluntary, divided into
deep, superficial, and subcutaneous parts) anal sphincters.
Pectinate Line
The inferior border of the anal valves forms the pectinate
line. Above the pectinate line, the anal canal is derived from
the embryologic hindgut (visceral—autonomic innervation,
inferior mesenteric arterial supply, venous drainage to portal system, and lymphatics to internal iliac nodes), below the
line it is derived from the proctodeum (somatic—somatic
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57
innervation, internal iliac arterial supply, venous drainage to
caval system, and lymphatics to inguinal nodes).
Teniae Coli
Proximally, the teniae coli converge at the base of the
appendix and thereby aid in location of the appendix during
surgery.
Vessels of the large intestine
Artery
Origin
Description
Superior
mesenteric
Abdominal
aorta
• Supplies alimentary canal to left colic
flexure
• Supplies embryologic midgut
Ileocolic
Superior
mesenteric
• Supplies cecum
• Gives rise to appendicular artery
Appendicular
Ileocolic
Supplies appendix
Right colic
Superior
mesenteric
Supplies ascending colon
Middle colic
Supplies transverse colon
Inferior mesenteric Abdominal
aorta
• Supplies alimentary canal to the anal
canal
• Supplies embryologic hindgut
Left colic
Supplies descending colon
Sigmoid
Inferior
mesenteric
Supplies sigmoid colon
Marginal
Ileocolic, right Anastomotic loop forming collateral
colic, middle
circulation along the large intestine
colic, left colic,
and sigmoids
Superior rectal
Inferior
mesenteric
Middle rectal
Inferior vesical Mid and inferior aspect of rectum
(male) or uterine
(female)
Inferior rectal
Internal
pudendal
Superior aspect of rectum
Anal canal
Additional Concept
Venous Drainage
Venous drainage parallels arterial supply and terminates in
the portal vein until the level of the junction of the superior
and middle aspects of the rectum; inferior to this point,
venous drainage is to the caval system.
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Nerves of the large intestine
Nerve
Origin
Structures Innervated
Large Intestine Proximal to Pectinate Line of Anal Canal
Parasympathetic • Vagal—to the • Presynaptic parasympathetic fibers
mid-transverse synapse in the in the wall of the
colon
large intestine
• S2–S4 via
• Increases motility and glandular
pelvic splanch- secretion and inhibits sphincters
nic nerves
Sympathetic
Presynaptics
• Postsynaptic fibers travel on
originate from
branches of superior and inferior
the intermediola- mesenteric arteries to the large
teral cell column
intestine
of the spinal cord • Reduces motility, activates sphincters,
and travel in the
vasoconstricts and decreases
sympathetic
glandular activity
trunks and
splanchnic nerves
to reach
abdominal
plexuses
Visceral afferent Cell bodies
• Large intestine sensitive to pain,
located in spinal
stretching and distension
ganglia
• Afferents involved in reflexes travel
with the vagus nerve
Large Intestine Distal to Pectinate Line of Anal Canal
Inferior rectal
Pudendal
• Somatic innervation
• Anal canal inferior to pectinate line
Structure of the liver
(Figures 2-3 and 2-5)
The liver is the largest internal organ and the largest gland
in the body. It is surrounded by a connective tissue capsule—Glisson’s capsule. The liver is divided into anatomic
lobes:
■
■
■
■
right
left
caudate
quadrate
Functional units of the liver are called hepatic lobules—
plates of hepatocytes surrounded by sinusoids, which are
organized around portal triads. The liver receives all substances absorbed by the digestive tract (except lipids), stores
glycogen, and secretes bile.
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Structure of the liver (continued)
Structure
Description
Anatomic Lobes
Right
Located to the right of the
right sagittal fissure
Left
Caudate
Quadrate
Features
Porta hepatis
Bare area
Left sagittal
fissure
Right sagittal
fissure
Right and left
hepatic ducts
Significance
Demarcated by the left and
right sagittal fissures and the
porta hepatis
Located to the left of the
left sagittal fissure
Between the left and right
sagittal fissures, posterior to
the porta hepatis
Between the left and right
sagittal fissures, anterior to
the porta hepatis
Fissure on inferior aspect of • Structures passing through
liver where structures enter
the porta hepatis include:
and leave that are enclosed
1. Common bile duct
in the hepatoduodenal
2. Portal vein
ligament
3. Hepatic artery
4. Lymphatics
• The first 3 structures
compose the portal triad
• Area on posterior aspect Provides potential route of
of liver that lacks
infection between the
peritoneum
abdominal and thoracic
• Bounded by the coronary cavities
ligaments
• Fissure on inferior aspect Contains:
of liver
• Ligamentum venosum—
• Separates the left lobe
remnant of ductus
from the quadrate and
venosus, an embryologic
caudate lobes
shunt for blood
• Round ligament—remnant
of umbilical vein
• Fissure on inferior aspect Contains:
of liver
• Inferior vena cava in
• Separates quadrate and
the groove for the
caudate lobes from right
inferior vena cava
lobe of liver
• Gall bladder in the fossa
of the gall bladder
Drain bile from the right and • Right and left bile ducts join
left lobes
inferior to the liver to form
the common hepatic duct
• Release of bile into the
hepatopancreatic ampulla
is controlled by the
sphincter of the bile duct
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CLINICAL ANATOMY FOR YOUR POCKET
Falciform ligament
Round ligament
Right branches
of hepatic duct,
hepatic
artery,
and portal
vein
Left branches of common
hepatic duct, portal vein, and
hepatic artery
Common hepatic
artery
Stomach
Gallbladder
Spleen
Cystic
artery
Splenic
artery
Splenic
Inferior vein
mesenteric
vein
Superior mesenteric artery
Superior mesenteric vein
Portal vein
Pylorus
Duodenum
Head of pancreas
FIGURE 2-3. Liver. Anterior view. (Asset provided by Anatomical
Chart Company.)
The remainder of the biliary tree is presented with the gall bladder and pancreas.
Additional Concept
Functional Divisions of the Liver
The liver can also be divided functionally into right and left
functional lobes, based on the branching pattern of the right
and left hepatic arteries.
Clinical Significance
Cirrhosis
Cirrhosis of the liver is characterized by the replacement of
healthy liver cells with fat and fibrous tissue; it is most commonly seen in alcoholics and is a common cause of portal
hypertension.
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61
LIVER
Vessels of the liver
(Figures 2-3 and 2-4)
Artery
Celiac trunk
Origin
Abdominal
aorta
Hepatic
Celiac trunk
Right and left
hepatic
Vein
Right, middle and
left hepatic
Hepatic
Portal
Termination
Inferior vena
cava
Sinusoids of
liver
Description
• Gives rise to splenic, hepatic, and
left gastric arteries
• Supplies embryologic foregut
• Supplies the liver
• Gives rise to right and left hepatic
arteries
Supply right and left lobes of liver
Description
• Drain into inferior vena cava
immediately inferior to the diaphragm
• Help to hold liver in place
• Formed by the junction of the splenic
and superior mesenteric veins, which
typically receive the inferior mesenteric
vein
• Conveys all venous blood and absorbed
nutrients from the digestive tract from
the inferior aspect of the esophagus
to the anal canal
Clinical Significance
Portal Hypertension
Portal hypertension is indicated by a rise in pressure in the
portal vein and is often caused by cirrhosis, characterized by
scarring and fibrosis of the liver. This causes blood to flow
into the systemic (caval) system at sites of portal-systemic
anastomosis, producing varicose veins.
Nerves of the liver
Nerve
Origin
Parasympathetic Vagus nerves
Sympathetic
Presynaptics originate
in the intermediolateral cell column of
the spinal cord and travel in the sympathetic
trunks and splanchnic
nerves to reach
abdominal plexuses
Structures Innervated
Anterior and posterior vagal trunks
enter abdomen through the
esophageal hiatus
• Presynaptic sympathetics are
conveyed to the celiac and
hepatic plexus
• Postsynaptic fibers travel on
branches of the hepatic artery
to the liver
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CLINICAL ANATOMY FOR YOUR POCKET
Liver
Right
inferior
phrenic
artery
Splenic
artery
Superior
mesenteric
artery
(to midgut)
Aorta
Esophagus
Left inferior
phrenic artery
Celiac trunk (artery;
to foregut)
Left gastric artery
Spleen
Posterior
gastric
artery
Duodenum
Stomach
Small
intestine
Inferior
mesenteric
artery (to
hindgut)
Descending
colon
Ascending
colon
A Anterior view
Right lobe
of liver
Cystic vein
Gallbladder
Portal vein
Right gastric
vein
Pancreaticoduodenal
veins
Duodenum
Middle colic
vein
Right colic
vein
Ileocolic
vein
Appendicular
vein
B Anterior view
To azygos venous
system
Esophageal branch
Cardial notch
Left gastric vein
Short gastric vein
Spleen
Splenic vein
Left and right
gastro-omental
veins
Pancreas
Inferior
mesenteric
vein
Superior
mesenteric
vein
Left colic
veins
Jejunal and
ileal veins
Sigmoid
veins
Superior rectal
veins
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GALL BLADDER
Structure of the gall bladder
(Figures 2-3 and 2-5)
The gall bladder is a pear-shaped organ located in the anterior aspect of the right sagittal fissure of the liver in the gall
bladder fossa. It stores and concentrates bile.
Structure
Fundus
Body
Neck
Description
Significance
Expanded anterior-most end Located near the 9th costal
cartilage in the midclavicular
line
Located between the fundus In contact with inferior
and neck
surface of liver
Narrow posterior-most part; Makes S-shaped bend to
directed toward porta hepatis join cystic duct
Additional Concept
Extrahepatic Duct System
The cystic duct of the gall bladder joins the common
hepatic duct—formed by the junction of the right and left
hepatic ducts—to form the common bile duct. The cystic
duct drains bile from the gall bladder and the mucosa of the
cystic duct is folded in a spiral fashion to form the spiral
valve, which functions to keep the duct open. The hepatic
ducts function to drain bile from the liver. The common bile
duct ends at the hepatopancreatic ampulla, where it joins
the main pancreatic duct; release of contents into the
duodenum is controlled by the sphincter of the hepatopancreatic ampulla—sympathetic innervation causes the
sphincter to contract. The remainder of the biliary tree is
presented with the liver and pancreas.
FIGURE 2-4. Arterial supply and venous drainage of GI tract. A:
The arterial supple is demonstrated. B: The venous drainage is
shown. The portal vein drains poorly oxygenated, nutrient-rich
blood from the gastrointestinal tract, spleen, pancreas, and gallbladder to the liver. The black arrow indicates the communication of
the esophageal vein with the azygos (systemic) venous system.
(From Moore KL, Dalley AF. Clinically Oriented Anatomy. 5th ed.
Baltimore: Lippincott Williams & Wilkins; 2006:245.)
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CLINICAL ANATOMY FOR YOUR POCKET
Right hepatic duct
Left hepatic duct
Common hepatic duct
Gallbladder
Cystic duct
Common bile duct
Duodenum
FIGURE 2-5. Endoscopic retrograde cholangiograph shows the
normal gallbladder and biliary tree. Note that the cystic duct normally lies on the right side of the common hepatic duct and joins it
superior to the duodenal cap. (From Dudek RW, Louis TM. HighYield Gross Anatomy. 3rd ed. Baltimore: Lippincott Williams &
Wilkins; 2008:125.)
Clinical Significance
Gall Stones
Concretions (gall stones) from the gall bladder may lodge
in the hepatopancreatic ampulla, causing bile to backup
into the pancreas, leading to pancreatitis, jaundice, and
pain. The gall bladder is often removed via laparoscopic
cholecystectomy.
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65
Vessels of the gall bladder
(Figures 2-3 and 2-4)
Artery
Origin
Description
Celiac trunk
Abdominal
aorta
Gives rise to splenic, hepatic, and left
gastric arteries; supplies embryologic
foregut
Hepatic
Celiac trunk
Gives rise to right and left hepatic
arteries
Right and left
hepatic arteries
Hepatic
Gives rise to cystic
Cystic
Right hepatic
Supplies gall bladder and cystic duct
Additional Concept
Venous Drainage
Venous drainage from the biliary tree and neck of the gall
bladder is via the cystic veins—they either drain directly into
the liver or into the portal vein. Venous drainage from the
remainder of the gall bladder is directly into the liver.
Nerves of the gall bladder
Nerve
Origin
Structures Innervated
Parasympathetic
Vagal
Presynaptic parasympathetic fibers
synapse on nerve cell bodies in the
wall of the gall bladder
Sympathetic
Presynaptics
Postsynaptic fibers travel on branches
originate in the of arteries to reach the gall bladder
intermediolateral
cell column of the
spinal cord and
travel in the sympathetic trunks
and splanchnic
nerves to reach
abdominal
plexuses
Visceral afferent
Cell bodies
Gall bladder sensitive to pain
located in spinal
•
Somatic afferent innervation,
ganglia
primarily mediating pain
• Conveyed to cervical spinal cord
Right phrenic
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PANCREAS
Structure of the pancreas
(Figures 2-3 and 2-5)
The pancreas is an elongated, lobulated, retroperitoneal
organ found along the posterior abdominal wall. It has both
an exocrine and endocrine function:
■
■
exocrine—produces pancreatic digestive enzymes
endocrine—produces glucagon and insulin
Structure
Parts
Head
Description
Significance
Expanded part
Uncinate
process
Hook-shaped projection
from head
Neck
Short part between head
and body
Body
Part between neck and tail
Tail
• Mobile
• Located in splenorenal
ligament
Lies in concavity of the
C-shaped duodenum
• Posterior relations: inferior
vena cava, right renal
vessels and left renal vein
• Anterior relations: superior
mesenteric artery
Overlies junction of superior
mesenteric and splenic veins
to form the portal vein
Lies to the left of the
superior mesenteric vessels
Related to hilum of spleen
and left colic flexure
Features
Main pancreatic • Begins at tail and extends • Merges with bile duct in
duct
to head
head of pancreas to form
• Conveys pancreatic
hepatopancreatic
enzymes
ampulla, which opens into
• Release of pancreatic
descending part of
enzymes regulated by
duodenum at the major
smooth muscle sphincter—
duodenal papilla
sphincter of pancreatic
• Release of contents into
duct
the duodenum is controlled
by a smooth muscle
sphincter—hepatopancreatic sphincter
(sphincter of Oddi) that
surrounds the ampulla
Accessory
• Drains uncinate process
Empties into descending part
pancreatic duct
and part of head of
of duodenum at minor
pancreas
duodenal papilla
• Conveys pancreatic enzymes
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The remainder of the biliary tree is presented with the gall
bladder and liver.
Clinical Significance
Pancreatic Cancer
Pancreatic cancer results in a low survival rate as a result of
difficulty to identify and treat because of its location and
easy route of metastasis to the liver.
Vessels of the pancreas
(Figures 2-3 and 2-4)
Artery
Celiac trunk
Origin
Abdominal
aorta
Splenic
Celiac trunk
Dorsal pancreatic
Great pancreatic
Caudal pancreatic
Hepatic
Gastroduodenal
Splenic
Celiac
Hepatic
Anterior and
posterior superior
pancreaticoduodenals
Superior
mesenteric
Abdominal
aorta
Anterior and
posterior inferior
pancreaticoduodenals
Description
• Gives rise to splenic, hepatic, and left
gastric arteries
• Supplies embryologic foregut
Gives rise to dorsal, caudal, and great
pancreatic arteries
Supplies body and tail
Gives rise to gastroduodenal
Gives rise to anterior and posterior
superior pancreaticoduodenals
Gastroduodenal Supply head and neck
Superior
mesenteric
• Gives rise to anterior and posterior
inferior pancreaticoduodenals
• Supplies alimentary canal to left colic
flexure
• Supplies embryologic midgut
Supply head and neck
Additional Concept
Venous Drainage
Venous drainage is via the splenic and superior mesenteric
veins, which join to form the portal vein.
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Nerves of the pancreas
Nerve
Parasympathetic
Sympathetic
Origin
Vagus nerves
Structures Innervated
• Anterior and posterior vagal trunks
enter abdomen through the esophageal hiatus
• Secretomotor, although most pancreatic secretion is controlled
hormonally
Presynaptics
• Presynaptic sympathetics are
originate from
conveyed to the celiac and superior
the intermediomesenteric plexuses
lateral cell
• Postsynaptic fibers travel on branches
column of the
of celiac and superior mesenteric
spinal cord and
arteries to pancreas
travel in the sym- • Most pancreatic secretion is
pathetic trunks
controlled hormonally
splanchnic nerves
to reach abdominal plexuses
SPLEEN
Structure of the spleen
(Figure 2-3)
The spleen is a lymphatic organ located in the upper left
quadrant of the abdomen. It functions to remove old or
abnormal red blood cells, stores platelets, and produces
antibodies.
Structure
Hilum
Gastrosplenic
ligament
Splenorenal
ligament
Description
Medially directed concavity
Significance
• Site of entry and exit to
and from the spleen
• Tail of the pancreas
contacts spleen here
Connects hilum of spleen to • Part of greater omentum
greater curvature of stomach • Contains short gastric and
left gastroepiploic vessels
Connects hilum of spleen
• Double layer of peritoneum
to left kidney
• Contains splenic vessels
Clinical Significance
Splenomegaly
The spleen may enlarge (splenomegaly) from a variety of
reasons or may be damaged by broken ribs, causing profuse
bleeding.
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69
Vessels of the spleen
(Figures 2-3 and 2-4)
Artery
Celiac trunk
Origin
Abdominal
aorta
Splenic
Celiac trunk
Description
• Gives rise to splenic, hepatic, and left
gastric arteries
• Supplies embryologic foregut
• Easily identified by tortuous course
• Travels in splenorenal ligament
• Supplies spleen via 5 terminal branches
Additional Concept
Venous Drainage
Venous drainage is via the splenic vein, which joins the superior mesenteric vein to form the portal vein.
Nerves of the spleen
Nerve
Parasympathetic
Sympathetic
Origin
Vagus nerves
Structures Innervated
Anterior and posterior vagal trunks
enter abdomen through the esophageal
hiatus
Presynaptics
• Presynaptic sympathetics are
originate from
conveyed to the celiac plexus/ganglia
the intermedio- • Postsynaptic fibers travel on branches
lateral cell
of the splenic artery to the spleen
column of the
spinal cord and
travel in the
sympathetic
trunks and
splanchnic
nerves to reach
abdominal
plexuses
KIDNEYS
Structure of the kidneys
(Figures 2-6 and 2-7)
The kidneys and ureters are retroperitoneal organs located
along the posterior abdominal wall. The kidneys function to
remove excess water, salts, and wastes from the blood. The
ureters convey urine from the kidney to the urinary bladder.
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Structure of the kidneys (continued)
Structure
Parts
Renal capsule
Renal cortex
Renal medulla
Renal hilum
Renal pyramid
Renal papilla
Renal sinus
Minor calyces
Major calyces
Renal pelvis
Features
Perirenal fat
Renal fascia
Pararenal fat
70
Description
Significance
Thin connective tissue
capsule that surrounds
kidney
• Between renal capsule
and renal medulla
• Extends into renal medulla
as renal columns
Between renal cortex and
renal hilum
Concave medial-margin of
kidney
• 5–10; conical-shaped
• Base adjacent to cortex,
apex forms renal papilla
• Outer surface of kidney
• Surrounded by perirenal
fat
Consists of cortical labyrinth
and cortical rays
Contains renal pyramids and
renal columns
Bounds renal sinus
• Compose major part of
medulla
• Renal columns intervene
between adjacent pyramids
Open into minor calyces
• 5–10
• Tip of renal pyramid
Area bounded by renal hilum • Space in concave medialmargin of kidney
• Contains renal vein, renal
artery, and renal pelvis from
anterior to posterior
Located in renal sinus;
Several minor calyces
convey urine
merge to form major calyces
• Formed by merging of
several minor calyces
• Several major calyces
merge to form renal pelvis
• Located in renal sinus
Narrows to form ureter—
• Proximal expanded end of
• Retroperitoneal
ureter
• Conveys urine from kidney
• Formed by merging of
to urinary bladder
major calyces
Layer of protective fat
surrounding kidney and
suprarenal glands
Membranous layer between
peri- and pararenal fat
Fat external to renal fascia
Continuous with fat in renal
sinus
• Surrounds kidney, suprarenal gland, and perirenal fat
• Continuous with fascia on
inferior aspect of diaphragm
Thick, protective layer of fat
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Renal
lobe
Renal column
Renal papilla
Minor calyx
Renal
capsule
Major calyx
Renal pelvis
Hilum
Renal
pyramids
Ureter
Cortex
Medulla
FIGURE 2-6. Longitudinal section of the kidney, near the hilum.
(From Stedman’s Medical Dictionary. 27th ed. Baltimore: Lippincott
Williams & Wilkins; 2000.)
Renal
pyramids
Major
calyx
Renal
pelvis
Ureter
Minor
calyx
Left
kidney
FIGURE 2-7. Intravenous urogram showing left kidney and proximal ureter; note the calyces and renal pelvis. (From Dudek RW,
Louis TM. High-Yield Gross Anatomy. 3rd ed. Baltimore: Lippincott
Williams & Wilkins; 2008:164.)
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Clinical Significance
Constrictions of the Ureters
Ureters are constricted at three places: (1) at the junction
with the renal pelvis; (2) where they cross the pelvic
brim; and (3) as they pass through the wall of the urinary
bladder.
Kidney Transplantation
Kidney transplantation is a well-established procedure to
replace failing kidneys. The transplanted kidney is placed in
the iliac fossa (of the pelvis) for support.
Kidney Stones
Kidney stones (renal calculi) are concretions that form in
the kidneys and may lodge in the calices, ureters, or urinary
bladder. Kidney stones may block urine passage and cause
pain referred to nearby regions.
Vessels of the kidneys and ureters
Artery
Origin
Description
Right and left renal Abdominal
aorta
• Gives rise to 4–5 segmental arteries
• Supply superior aspect of ureter
Segmental (4–5)
Supply segments of the kidney
Renal arteries
Right and left
Abdominal
gonadal (testicular aorta
or ovarian)
Supply middle aspects of ureter
Abdominal aorta
Supply inferior aspects of ureter
Vein
Continuous
with thoracic
aorta
Termination
Description
Renal
Inferior vena
cava
Drain kidneys and ureters
Gonadal
• Right gonadal Drain ureters
terminates in
inferior vena
cava
• Left gonadal
terminates in
left renal vein
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73
Nerves of the kidneys and ureters
Nerve
Origin
Structures Innervated
Sympathetic
Presynaptics originate
intermediolateral cell
column of the spinal
cord travel in sympathetic trunks and
splanchnic nerves to
reach abdominal
plexuses
• Presynaptic sympathetics are
conveyed to the renal, abdominal
aortic and superior hypogastric
plexuses/ganglia
• Postsynaptic fibers travel on
arterial branches to kidney and
ureter; regulate blood pressure
by effecting renin release
Visceral
afferent
Cell bodies located
in spinal ganglia
Mediate pain sensation
Additional Concept
Parasympathetic Innervation
Parasympathetic innervation of the kidneys is negligible.
Autonomic innervation of the ureters is modulatory, but not
necessary to maintain the peristaltic contractions that convey urine to the bladder.
SUPRARENAL GLANDS
Structure of the suprarenal glands
The suprarenal glands are positioned between the kidneys
and crura of the diaphragm. The right gland is pyramidalshaped, whereas the left is crescent-shaped. They are surrounded by perirenal fat and renal fascia and separated
from the kidney connective tissue. The suprarenal glands
function to secrete hormones and norepinephrine and
epinephrine.
Structure
Description
Significance
Cortex
Outer part
Secretes corticosteroids and
androgens
Medulla
Inner part
• Secretes norepinephrine
and epinephrine
• Composed of modified
postsynaptic sympathetic
neurons
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Vessels of the suprarenal glands
(Figure 2-4)
Artery
Inferior phrenic
Origin
Abdominal
aorta
Superior suprarenal Inferior phrenic
Middle suprarenal Abdominal
aorta
Renal
Inferior suprarenal Renal
Vein
Termination
Right suprarenal
Inferior vena
cava
Left suprarenal
Left renal
Description
Gives rise to superior suprarenal
Part of rich blood supply to gland
Gives rise to inferior suprarenal
Part of rich blood supply to gland
Description
Drain gland
Nerves of the suprarenal glands
Nerve
Sympathetic
Origin
Presynaptics originate
from the intermediolateral cell column of the
spinal cord and travel
in the sympathetic
trunks and splanchnic
nerves to reach
abdominal plexuses
Structures innervated
Presynaptic sympathetics are
conveyed to the suprarenal glands
by traveling on arterial branches,
where they synapse on cells of the
medulla
ABDOMINAL LYMPHATICS
Abdominal lymphatics
Structure
Description
Drainage
Abdominal wall Superficial lymphatic vessels • Superior to umbilicus—
accompany subcutaneous
drain to axillary nodes
veins
• Inferior to umbilicus—
drain to superficial inguinal
nodes
Esophagus
Into left gastric lymph
Left gastric nodes drain into
nodes
celiac nodes
Stomach
Vessels accompany arteries Lymph is collected in gastric
along curvatures of stomach and gastro-omental nodes,
which drain into pancreaticosplenic, pyloric, and pancreaticoduodenal lymph nodes, all
of which eventually drain to
the celiac nodes
(continued)
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75
Abdominal lymphatics (continued)
Structure
Small intestine
Large intestine
Spleen
Description
Drainage
• Duodenum: vessels
• Duodenum: anterior vessels
accompany arteries
drain into pancreaticoduo• Jejunum and ileum:
denal nodes, which drain
drainage begins as specialinto pyloric nodes; posterior
ized vessels—lacteals in
vessels drain into superior
the intestinal villi
mesenteric nodes, all of
which eventually drain into
celiac nodes
• Jejunum and ileum: lacteals
form vessels that drain into
juxta-intestinal nodes to
mesenteric nodes to
superior central nodes, all
of which eventually drain
into superior mesenteric
lymph nodes that drain to
the ileocolic nodes
• Cecum and appendix:
• Cecum and appendix: nodes
vessels to the nodes in the
in the mesoappendix and
mesoappendix and ileocolic ileocolic nodes drain to the
lymph nodes
superior mesenteric nodes
• Ascending, descending,
• Ascending, descending,
and sigmoid colon: vessels and sigmoid colon: epiploic
to epicolic and paracolic
and paracolic nodes drain
nodes
to ileocolic and right colic
• Transverse colon: vessels
nodes, which drain to
to middle colic nodes
superior mesenteric lymph
• Rectum: superior half:
nodes
drain to pararectal nodes; • Transverse colon: middle
inferior half: drain to
colic nodes drain to supersacral nodes
ior mesenteric nodes
• Anal canal: superior to
• Rectum: pararectal nodes
pectinate line: drain to
drain to inferior mesenteric
internal iliac nodes;
nodes, sacral nodes follow
inferior to pectinate line:
middle rectal vessels to
drain to superficial inguinal
internal iliac nodes
nodes
• Anal canal: internal iliac
nodes drain to the common
iliac and eventually the
lumbar lymph nodes;
superficial inguinal nodes
drain to the deep inguinal
lymph nodes
Vessels follow arteries from Vessels lead to
the hilum
pancreaticosplenic nodes,
which lead to superior
mesenteric lymph nodes
(continued)
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Abdominal lymphatics (continued)
Structure
Pancreas
Suprarenal
glands
Kidney and
ureter
Gall bladder
Liver
Description
Vessels follow arteries
Drainage
Vessels lead to pancreaticosplenic nodes and pyloric
nodes, which lead to the superior mesenteric lymph nodes
Drain to lumbar lymph nodes
Kidney and superior aspect
of ureter: vessels follow
arteries
• Kidney and superior aspect
of ureter: drain to the
lumbar nodes
• Mid-ureter: drain to
common iliac nodes
• Inferior ureter lymph is conveyed to iliac lymph nodes
Lymphatics are first conveyed Lymph from hepatic nodes is
to the hepatic nodes
conveyed to celiac nodes
Efferent lymphatics drain to • Produces ⬃50% of the
the hepatic nodes (deep
lymph conveyed by the
lymphatics), to phrenic nodes thoracic duct
(superficial lymphatics) or
• Most lymph from the liver
posterior mediastinal nodes
is conveyed to the cisterna
chyli—the dilated beginning of the thoracic duct
Additional Concept
Thoracic Duct
The thoracic duct begins in the abdomen as the cisterna
chyli and conveys lymph from both lower limbs, the entire
abdomen, the left half of the thoracic cavity via a thoracic
trunk, the left upper limb via a subclavian trunk, and left
side of the head and neck via the jugular trunk to the junction of the subclavian and internal jugular veins.
Right Lymphatic Duct
The right lymphatic duct conveys lymph from the remainder of the body (right side of thorax via a thoracic trunk,
right upper limb via a subclavian trunk, right side of head
and neck via a jugular trunk) to the junction of the internal
jugular and subclavian veins on the right.
Lymphatic vessels associated with abdominal viscera
generally follow vessels (arteries) and are conveyed to lumbar and intestinal lymphatic vessels/trunks, which lead to the
cisterna chyli.
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Pelvis
3
INTRODUCTION
The pelvic cavity is the inferior portion of the abdominopelvic cavity and as such has many features and structures in
common with the abdominal cavity; many organs and peritoneal relations are continuous between the two. The pelvic
cavity contains parts of the urinary system and the internal
genitals.
The perineum is the area between the thighs and the
location of the external genitalia in both sexes.
PELVIS
Areas of the pelvis
The pelvic cavity is continuous superiorly with the abdominal cavity.
Area
Structure
Pelvic inlet
Bounded by:
(superior pelvic • Pubic symphysis and
aperture)
crest
• Pectineal line
• Arcuate line of the
ilium and the ala of
each side
• Promontory of the
sacrum
Pelvic outlet
Bounded by:
• Pubic symphysis
• Ischiopubic ramus and
ischial tuberosity
• Sacrotuberous
ligaments
• Coccyx
Significance
Collectively the structures
that bound the pelvic inlet
are known as the linea
terminalis or pelvic brim
In the female, the pelvic
outlet is larger than in the
male to accommodate
parturition
(continued)
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Areas of the pelvis (continued)
Area
Greater pelvis
(false pelvis)
Lesser pelvis
(true pelvis)
Retropubic
space
Retrorectal
space
Structure
Bounded by:
• Lateral—ala of the
ilium
• Inferior—pelvic inlet
• Superior—continuous
with abdominal cavity
• Anterior—abdominal
wall
• Posterior—L5–S1
vertebrae
Bounded by:
• Superior—pelvic inlet
(superior pelvic
aperture)
• Inferior—pelvic outlet
and pelvic diaphragm
• Lateral—hip bones
• Posterior—sacrum and
coccyx
• Anterior—pubic
symphysis
Potential, fat-filled area of
endopelvic fascia between
the pubic symphysis and
urinary bladder
Potential, fat-filled area of
endopelvic fascia between
the rectum and sacrum
and coccyx
Significance
• Superior aspect of the
pelvis
• Contains abdominal
viscera, including the
sigmoid colon and parts
of the ileum
• Inferior aspect of the
pelvis
• Contains reproductive and
urinary organs, including
the urinary bladder,
uterus (female), and
prostate (male)
Allows for the expansion of
the urinary bladder as it fills
with urine
Allows for the expansion of
the rectum during defecation
Clinical Significance
Pregnancy
The size of the lesser pelvis increases and the pubic symphysis becomes more flexible in pregnant females as hormones
cause the pelvic ligaments to relax.
Bones of the pelvis
(Figure 3-1)
Feature
Pelvic girdle
Characteristic
Basin-shaped group
of bones: 2 hip bones
and the sacrum
Significance
• Transfers weight from
vertebral column to lower
limbs
(continued)
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Bones of the pelvis (continued)
Feature
Characteristic
Greater sciatic
foramen
Sacrospinous
ligament forms
greater sciatic notch
into foramen
Lesser sciatic
foramen
Sacrospinous and
sacrotuberous
ligaments form
foramen
Obturator
foramen
Formed by body and
ramus of ischium and
superior and inferior
pubic rami
Significance
• Hip bones joined anteriorly by
pubic symphysis, joined to
sacrum posteriorly at sacroiliac
joints
Permits passage of piriformis,
gluteal vessels, and nerves,
sciatic and posterior femoral
cutaneous nerves, internal
pudendal vessels, pudendal nerve,
and nerves to obturator internus
and quadratus femoris from the
pelvis to the gluteal region
Permits passage of the tendon of
obturator internus and the internal
pudendal vessels and pudendal
nerve as they wrap around the
ischial spine to enter the
perineum
• Covered by obturator
membrane
• A deficiency in the obturator
membrane—the obturator
canal: permits passage of
obturator vessels and nerves
between the pelvis and lower
limb
• Cup-shaped articular cavity on
lateral aspect of hip bone
• Head of femur articulates here
• Acetabular notch bridged by
transverse acetabular
ligament to complete cup
• Formed by
contributions from
the ilium, ischium,
and pubis
• Deficient inferiorly
as the acetabular
notch
Inferior borders of ischiopubic
Formed by both
Pubic arch
rami form subpubic angle,
ischiopubic rami,
which is typically ⬍70⬚ in males
which meet at the
and ⬎80⬚ in females
pubic symphysis
Hip Bones—formed by the fusion of the ilium, ischium, and pubis
• Expanded upper portion of ilium
Ala
Ilium
• Superior border is the iliac
crest
• Posterior gluteal surface bears
3 lines: the anterior, middle,
Acetabulum
(continued)
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Bones of the pelvis (continued)
Feature
Description
Body
Arcuate line
Iliac crest
Anterior superior iliac
spine
Posterior superior
iliac spine
Anterior inferior iliac
spine
Posterior inferior iliac
spine
Iliac fossa
Greater sciatic notch
Ischium
Body
Ramus
Ischial tuberosity
Significance
and posterior gluteal lines
that serve as attachments for
muscles of the gluteal region
• Anterior surface—iliac fossa
• The smaller inferior portion of
the ilium
• Forms part of acetabulum
• Junction of the body of the
ilium and body of the ischium
• Part of linea terminalis
• Superior border of ala
• Attachment for abdominal,
back, and lower limb muscles
• Located between the anterior
and posterior superior iliac
spines
• Anterior end of iliac crest
• Attachment for fascia lata,
tensor of fascia lata, sartorius,
and inguinal ligament
• Posterior end of iliac crest
• Attachment for multifidus
• Site of skin dimples
• Marks S2 vertebral level and
inferior end of dural sac
Attachment for rectus femoris
Superior border of greater sciatic
notch
• Depression on anterior aspect
of ala
• Proximal attachment for iliacus
Between posterior inferior iliac
spine and ischial spine
• Forms part of acetabulum
• Ischial spine and tuberosity
project from body
Articulates with inferior ramus of
pubis
• Projection from body of ischium
• Attachment for adductor
magnus, the hamstrings, and
the sacrotuberous ligament
(continued)
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Bones of the pelvis (continued)
Feature
Pubis
Description
Significance
Ischial spine
• Projection from body
• Attachment for superior
gemellus, coccygeus, levator
ani, and sacrospinous
ligament—which converts
the greater sciatic notch into a
foramen
• Forms superior border of lesser
sciatic notch
Body
Forms part of acetabulum
Superior ramus
• Articulates with contralateral
superior ramus
• Pubic tubercle projects from
superior ramus
• Contributes to obturator
foramen
Pubic tubercle
• Projection from superior ramus
• Attachment for inguinal
ligament and inferior crus of
superficial inguinal ring
Pectin pubis
• Ridge along superior ramus
extending laterally from pubic
tubercle
• Attachment for lacunar
ligament and conjoint tendon
Inferior ramus
Contributes to obturator foramen
The gluteal-aspect (posterior) of the bones in this table is
described with the skeletal sections of the lower limb and
back.
Additional Concept
Greater Sciatic Foramen
The greater sciatic foramen is considered an exit from the
pelvis. Of the structures passing out of the pelvis via the
foramen, only the superior gluteal vessels and nerves pass
superior to the piriformis, all other structures pass inferior
to this landmark muscle.
Ischiopubic Ramus
The ramus of the ischium and the inferior ramus of the
pubis are collectively known as the ischiopubic ramus.
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Sacroiliac
joint
Fifth lumbar
vertebra
Sacrum
Iliac crest
Anterior
superior
iliac
spine
Anterior
inferior
iliac
spine
Coccyx
Ischical
spine
Neck of
femur
Lesser
trochanter
Body of
pubis
Symphysis
of pubis
Ischial
tuberosity
Obturator
foramen
FIGURE 3-1. Bones of the pelvis radiograph. (From Dudek RW,
Louis TM. High-Yield Gross Anatomy. 3rd ed. Baltimore: Lippincott
Williams & Wilkins; 2008:211.)
Clinical Significance
Sex Differences in the Pelves
The pelves differ between the sexes: the female pelvis is specialized for parturition. The female pelvis is lightweight,
wide, and shallow, with an oval pelvic inlet and larger pelvic
outlet and subpubic angle relative to the male pelvis.
Minimum diameters of the pelvis are important in
obstetrics. The obstetric “true” conjugate—the distance
between the posterior aspect of the pubic symphysis and the
sacral promontory should be ⬎11 cm for vaginal delivery.
Joints of the pelvis
(Figure 3-1)
Joint
Sacroiliac
Type
• Anterior
part:
synovial
Articulation
Sacrum
suspended
between
iliac bones
Structure
• Joint strengthened by
anterior, posterior, and
interosseous sacroiliac
ligaments
(continued)
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Joints of the pelvis (continued)
Joint
Type
• Posterior
part:
fibrous
Articulation
Structure
• Sacrotuberous and
sacrospinous ligaments
provide resilient support
during times of sudden
weight increases
(e.g., jumping)
Pubic symphysis
Cartilaginous
Between
bodies of
pubic bones
• Interpubic disc located
between bones
• Joint strengthened by
superior and inferior
pubic ligaments; also
strengthened by tendons
of rectus abdominis and
external oblique
The joints associated with the vertebral column are described with
the back (see Chapter 4).
Peritoneum of the pelvis
(Figure 3-6)
The peritoneum lining the greater sac of the abdomen continues into the pelvis; it reflects onto the organs of the pelvis
creating pouches and fossae.
Feature
Female
Supravesical
fossa
Description
Significance
Between anterior
abdominal wall and
urinary bladder
Vesicouterine
pouch
Between urinary bladder
and uterus
Rectouterine
pouch
Between uterus and
rectum
Reflection of peritoneum
from anterior abdominal
wall onto superior surface
of urinary bladder
• Allows for expansion of
urinary bladder
• Reflection of peritoneum
from urinary bladder onto
uterus
• Allows for expansion of
uterus and urinary
bladder
• Potential site for fluid
accumulation during
pathologic processes
• Reflection of peritoneum
from uterus to rectum
(continued)
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Peritoneum of the pelvis (continued)
Feature
Male
Supravesical
fossa
Rectovesical
pouch
Description
Significance
• Allows for expansion of
rectum and uterus
• Potential site for fluid
accumulation during
pathologic processes
Between anterior
abdominal wall and
urinary bladder
Reflection of peritoneum
from anterior abdominal wall
onto superior surface of
urinary bladder
• Allows for expansion of
urinary bladder
• Reflection of peritoneum
from urinary bladder onto
rectum
• Allows for expansion of
rectum and urinary bladder
• Potential site for fluid
accumulation during
pathologic processes
Between urinary bladder
and rectum
Fascia of the pelvis
(Figure 3-6)
Fascia/Connective
Tissue
Pelvic fascia
Significance/Structure
• Inferior continuation of endoabdominal fascia
• Between parietal peritoneum and muscular body
wall
Parietal layer of pelvic Membranous layer of pelvic fascia that lines the
fascia
muscles of the pelvic walls
Visceral layer of pelvic Membranous layer of pelvic fascia that invests the
fascia
organs of the pelvis as their adventitial layer
Tendinous arch of
Anteroposterior oriented bilateral thickening of pelvic
pelvic fascia
fascia formed at points of reflection between the
parietal and visceral layers of pelvic fascia (just
lateral to where organs penetrate pelvic floor)
Puboprostatic ligament Anterior subdivision of tendinous arch in the male
that connects the prostate to the pubis
Pubovesical ligament Anterior subdivision of tendinous arch in the female
that connects the neck of the bladder to the pubis
Layer of fascia connecting the visceral and parietal
Endopelvic fascia
layers of pelvic fascia of varying consistency
(continued)
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Fascia of the pelvis (continued)
Fascia/Connective
Tissue
Transverse cervical
(cardinal) ligament
Rectovesical septum
Prostatic sheath
Significance/Structure
• Condensed layer of endopelvic fascia in the female
that provides the primary support for the uterus
• Connects lateral wall of pelvis with the cervix of
the uterus
Condensed layer of endopelvic fascia in the male
between the bladder and prostate and the rectum
• Formed by the visceral layer of pelvic fascia
• Surrounds fibrous capsule of the prostate
• Continuous anteriorly with the puboprostatic
ligaments and posteriorly with the rectovesical
septum
Muscles of the pelvis
(Figures 3-2, 3-3, and 3-6)
Proximal
Attachment
Obturator
membrane,
ilium, and
ischium
Sacrum
Piriformis
(S2–S4
segments),
sacrotuberous ligament,
margin of
greater
sciatic notch
Pubis,
Levator ani
tendinous
(iliococcygeus,
pubococcygeus arch of
obturator
[largest part]
and puborectalis) internus and
ischial spine
Distal
Attachment
Greater
trochanter of
femur
Coccygeus
Sacrum and
coccyx
Muscle
Obturator
internus
Ischial spine
Innervation
Nerve to
obturator
internus
(L5–S2)
S1–S2
Perineal
Pudendal
body, coccyx, and nerve to
anococcygeal levator ani
ligament,
walls of
prostate,
vagina,
rectum and
anal canal
S4–S5
Main
Actions
Laterally
rotates thigh,
holds femur
in acetabulum
Laterally
rotates and
abducts
thigh; holds
femur in
acetabulum
• Part of
pelvic
diaphragm
• Supports
pelvic
viscera
• Puborectalis part
forms sling
around
anorectal
junction—
responsible
for fecal
continence
Part of pelvic
diaphragm
• Supports
pelvic
viscera
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Additional Concept
Pelvic Diaphragm
The pelvic diaphragm is the funnel-shaped floor of the
pelvis, formed by the levator ani and coccygeus. The levator
ani is subdivided based on attachment into iliococcygeus,
pubococcygeus, and puborectalis from superior to inferior.
Obturator Fascia
A thickening of the fascia of the obturator internus—the
obturator fascia on the medial surface of the muscle—
forms the tendinous arch of levator ani, which serves as
an attachment for levator ani.
Sacral Plexus
The sacral plexus sits on the muscular “bed” of the piriformis.
Clinical Significance
Trauma to the Pelvic Floor
The muscles forming the floor of the pelvis may be injured
during childbirth. Trauma to the pubococcygeus, the main
part of the levator ani or the nerves supplying it, may lead
to urinary incontinence.
Nerves of the pelvis
(Figures 3-2, 3-3, and 3-6)
The lumbosacral trunk conveys fibers from the L4–L5
spinal cord levels to the sacral plexus (S1–S4). The sacral
plexus innervates pelvic structures, the perineum, and the
lower limb; it is formed of anterior rami.
Nerve
Sacral Plexus
Sciatic
Origin
Structures Innervated
L4–S3
Pudendal
S2–S4
Superior gluteal
L4–S1
Inferior gluteal
L5–S2
Supplies hip joint, leg, foot and
posterior compartment of the thigh
• Supplies perineal musculature,
sphincter urethrae, and external anal
sphincter
• Sensory to skin covering external
genitalia
Supplies gluteus medius and minimus
and tensor of fascia lata
Supplies gluteus maximus
(continued)
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Nerves of the pelvis (continued)
Nerve
Origin
Structures Innervated
Nerve to piriformis S1–S2
Supplies piriformis
Supplies quadratus femoris and inferior
Nerve to quadratus L4–S1
gemellus
femoris
Nerve to obturator L5–S2
Supplies obturator internus and
internus
superior gemellus
Nerve to levator ani S3–S4
Supplies levator ani and coccygeus
Sensory to inferior aspect of buttock
Posterior femoral S2–S3
and posterior aspect of thigh
cutaneous
Coccygeal Plexus—sparse fibers from lower sacral and coccygeal spinal
cord levels that inconsistently provide sensory and motor innervation to
nearby regions and structures.
Autonomic Innervation of the Pelvis
Sacral levels of Fibers join the hypogastric, pelvic,
Sympathetic
the
sacral, and coccygeal plexuses and
sympathetic
follow arteries to their targets—
trunks convey arteries, urinary bladder, prostate,
postsynaptic
seminal glands, uterus, vagina, and
sympathetic
genitals
fibers, and
sacral
splanchnic
nerves to
plexuses in the
pelvis
S2–S4 contain Fibers join the hypogastric and pelvic
Parasympathetic
presynaptic
plexuses and follow arteries to their
parasympathe- targets—urinary bladder, rectum, and
tic fibers that
genitals, where they synapse in the
are conveyed
wall of the organ
via pelvic
splanchnic
nerves to
plexuses in the
pelvis
The pelvic pain line is indicated by
Visceral afferents Inferior to
pelvic pain line: the peritoneum as it drapes into the
convey
pelvis—structures in contact with the
sensation to
peritoneum are above the pain line;
S2–S4 levels
structures inferior to the peritoneum
via pelvic
are below the pain line
splanchnics;
superior to
pelvic pain line:
convey
sensation to
thoracic and
lumbar spinal
cord levels
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Clinical Significance
Compression of the Sacral Plexus
The fetal head may compress branches of the sacral plexus
during pregnancy and childbirth, producing pain in the
lower limbs and back.
Mnemonic
Pudendal Nerve Roots
Pudendal and parasympathetic spinal cord levels:
S2, S3, and S4 keep the genitals off the floor.
Psoas major
Iliolumbar artery
Internal iliac
artery and
vein
Lumbosacral
trunk
Obturator
nerve
Superior
gluteal
nerve
Sciatic
nerve
Sympathetic
trunk and
ganglion
Rami
communicantes
Lateral
sacral
artery
Nerves to
piriformis
Sacral
plexus
Coccygeus
S4
Inferior gluteal
artery
Pudendal
nerve
Pelvic splanchnic
nerves
S5
Coccygeal
plexus
Medial view from left
FIGURE 3-2. Nerves of the pelvis. Somatic nerves (sacral and coccygeal nerve plexuses) and the pelvic (sacral) part of the sympathetic trunk are shown. Although located in the pelvis, most of the
nerves seen here are involved with the innervation of the lower limb
rather than the pelvic structures. (From Moore KL, Dalley AF.
Clinically Oriented Anatomy. 5th ed. Baltimore: Lippincott Williams
& Wilkins; 2006:380.)
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Vasculature of the pelvis
(Figures 3-2, 3-3, 3-4, and 3-6)
Artery
Internal
iliac
Anterior
division
Posterior
division
Umbilical
Origin
Common iliac
Internal iliac
Anterior division
Obturator
Superior
vesical
Inferior
vesical
Middle
rectal
Superior
gluteal
Inferior
gluteal
Internal
pudendal
Uterine/
vaginal
Umbilical
Iliolumbar
Posterior
division
Anterior division
Description
Supplies pelvis, gluteal region, thigh, and
perineum
Supplies pelvic viscera and medial
compartment of the thigh
Supplies walls of pelvis and gluteal region
• Gives rise to superior vesical and
occasionally uterine and vaginal arteries
• Obliterated distal part forms medial
umbilical ligaments
Supplies superior aspect of medial
compartment of thigh
Supplies urinary bladder
Supplies urinary bladder, prostate, seminal
gland, and ureter
Supplies rectum, seminal gland, and
prostate
Supplies superior aspect of gluteal region
Supplies inferior aspect of gluteal region
Supplies perineum
• May arise from anterior division or
umbilical; may branch from common trunk
• Supply uterus and vagina, respectively
Supplies iliacus, psoas, quadratus
lumborum, and vertebral canal
Supplies piriformis and vertebral canal
Lateral
sacral
Supply testes and ovaries
Abdominal
Gonadal
(testicular aorta
or ovarian)
Veins—veins draining to caval system generally follow arteries to terminate
in the internal iliac vein; veins following portal system contribute to the
inferior mesenteric vein
Additional Concept
Venous Drainage
Venous drainage generally parallels arterial supply.
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Common iliac artery
Internal iliac artery
Iliolumbar artery
Lateral sacral artery
External iliac artery
Obturator artery
Medial umbilical
ligament
(obliterated
umbilical artery)
Superior vesical
arteries
Superior
Inferior
Gluteal
arteries
Inferior vesical
artery
Internal pudendal
artery
Pudendal nerve
Middle rectal
artery
A
Common iliac artery
Internal iliac artery
External iliac artery
Obturator artery
Iliolumbar artery
Lateral sacral artery
Superior
Inferior
Gluteal
arteries
Uterine artery
Medial umbilical
ligament
(obliterated
umbilical artery)
Superior vesical
arteries
Internal pudendal
artery
Pudendal nerve
Middle rectal
artery
Vaginal artery
B
FIGURE 3-3. Arteries of the pelvis. The arteries of the male pelvis
(A) and the female pelvis (B) are shown. Anterior divisions of the
internal iliac arteries usually supply most of the blood to pelvic
structures. The arteries are internal (lie medial) to the nerves making up the sacral plexus. (From Moore KL, Dalley AF. Clinically
Oriented Anatomy. 5th ed. Baltimore: Lippincott Williams &
Wilkins; 2006:386.)
Lymphatics of the pelvis
Structure
Urinary
bladder
Description
Vessels
accompany
Drainage
• Superior aspect: external iliac nodes
• Inferior aspect: internal iliac nodes
(continued)
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Lymphatics of the pelvis (continued)
Structure
Ureters
Urethrae
Seminal
glands
Prostate
Penis
Description
arteries—
generally
structures
drain into
external and
internal iliac
nodes, which
drain into
common iliac
nodes to the
lumbar nodes
Drainage
Vessels drain to internal and external common
iliac and lumbar nodes owing to their long
course
• Male: vessels from prostatic and
membranous portions drain to internal iliac
nodes, whereas those from the penile
urethra drain to the deep inguinal nodes
• Female: vessels drain to the sacral and
internal iliac nodes
External and internal nodes
Internal iliac and sacral nodes
Superficial and deep inguinal and external and
internal iliac nodes
• Superior aspect: internal and external iliac
nodes
• Middle aspect: internal iliac nodes
• Inferior aspect: sacral and common iliac nodes
• Drainage from the external vaginal orifice to
superficial inguinal nodes
• Fundus: lumbar nodes
• Body: external iliac nodes
• Cervix: internal iliac and sacral nodes
Lumbar nodes
Superficial inguinal nodes
Vagina
Uterus
Ovaries
Vulva
URINARY BLADDER
Structure of the urinary bladder
(Figures 3-3 and 3-6)
The bladder is a hollow, muscular organ that serves as reservoir for urine until it is voided. When empty, it is located
entirely within the lesser pelvis; when full, it may extend
through the extraperitoneal fascial plane superiorly as high
as the umbilicus.
Structure
Parts
Body
Description
Significance
Main part, between the
apex and fundus
• In males—related to the
rectum
• In females—related to the
vagina
(continued)
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Structure of the urinary bladder (continued)
Structure
Apex
Description
Part directed toward the
pubic symphysis
Neck
Inferior-most part
Fundus
Convex, posteriorlydirected part
Features
Detrusor muscle
Internal urethral
sphincter
Internal urethral
orifice
Urinary trigone
• Composes the muscular
part of the bladder wall
• Internal wall covered
with rugae to allow for
expansion
Formed of circularly
disposed smooth muscles
fibers
• Internal opening of the
urethra
• Located at inferior
“corner” of urinary trigone
Smooth inferoposterior
aspect of bladder wall
Significance
• Anterior-most aspect
• Part from which the
urachus—embryologic
shunt for urine, originates
Anchored in place by the
lateral ligaments of the
bladder and the tendinous
arch of pelvic fascia
• Also known as the base
• Location of the ureters as
they enter the bladder
Innervated by the
parasympathetics S2–S4,
causes constriction of wall
and expulsion of urine
• Located near neck of
bladder
• Contract during ejaculation
to prevent semen from
entering bladder
Radially arranged smooth
muscle fibers assist in
opening the sphincter to
expel urine
3 corners of trigone:
Inferior—internal urethral
orifice and 2 superior—
ureteric orifices
Additional Concept
Peritoneal Relations
The urinary bladder is covered only on its superior surface
with peritoneum; the remainder is covered with loose connective tissue (vesical fascia). The bladder is relatively free
except at the neck where it is held in place by the tendinous
arch of the pelvis.
Median Umbilical Fold
The median umbilical ligament (vestige of the fetal urachus) is covered by peritoneum to form the median umbilical fold.
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Vasculature of the urinary bladder
Artery
Origin
Superior vesical Umbilical
Inferior vesical
Internal iliac
Vaginal
Uterine (sometimes via
common trunk),
umbilical, or internal iliac
Internal iliac
Obturator
Inferior gluteal
Description
Supply anterior and superior
aspects
Males: supply posterior and
inferior aspects
Females: supply posterior and
inferior aspects
May supply branches to bladder
Additional Concept
Venous Drainage
Venous drainage generally parallels arterial supply to end in
the internal iliac vein.
Nerves of the urinary bladder
Nerve
Parasympathetic
Sympathetic
Visceral afferents
Origin
S2–S4,
conveyed via
pelvic splanchnic nerves to
pelvic plexuses
Presynaptics
originate from
the intermediolateral cell
column of the
spinal cord and
travel in the
sympathetic
trunks and splanchnic nerves to
reach pelvic
plexuses
Bladder wall
Structures Innervated
Motor to detrusor, inhibitory to internal
urethral sphincter
Motor to internal urethral sphincter
• Senses stretching of bladder wall,
impulses conveyed to spinal cord
via pelvic splanchnics from most of
bladder
• Superior part of bladder is superior
to pelvic pain line so impulses are
conveyed via sympathetic system
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CLINICAL ANATOMY FOR YOUR POCKET
URETHRAE
Structure of the urethrae
(Figures 3-3 and 3-6)
The urethrae extend from the internal urethral orifice of the
urinary bladder to the external urethral orifice in both
sexes. They function to convey urine from the urinary bladder to the outside world.
Structure
Female urethra
Male urethra
Description
• External urethral orifice
located in the vestibule of
the vagina
• Passes through pelvic and
urogenital (external urethral sphincter) diaphragms
• External urethral orifice
located on tip of glans
penis
• Passes through pelvic and
urogenital (external urethral sphincter) diaphragms
Significance
• Located anterior to the
vagina
• Urethral glands open along
length
• Paraurethral glands open
near external urethral orifice
• Common route for urine
and semen
• Divided into 4 parts:
1. Intramural (preprostatic)
2. Prostatic
3. Membranous
4. Penile (spongy)
Clinical Significance
Catheterization
The short, distensible female urethra allows for easy passage
of catheters into the bladder and provides an easy route for
bacterial infection of the bladder.
Vasculature of the urethrae
Artery
Female
Internal
pudendal
Vaginal
Male
Inferior
vesical
Middle
rectal
Internal
pudendal
Origin
Description
Anterior division Supplies urethra and perineum
of internal iliac
Supplies urethra and vagina
Anterior division Supply intramural and prostatic parts via
of internal iliac prostatic branches
Supplies membranous and penile parts
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Additional Concept
Venous Drainage
Venous drainage generally parallels arterial supply.
Nerves of the urethrae
Nerve
Parasympathetic
Sympathetic
Visceral
afferents—both
sexes
Somatic
afferents—both
sexes
Origin
Presynaptics originate
in spinal cord levels
S2–S4, conveyed via
pelvic splanchnic
nerves to pelvic
plexuses
Presynaptics originate
from the intermediolateral cell column of
the spinal cord and
travel in the sympathetic trunks and, finally,
sacral splanchnic nerves
to reach pelvic plexuses
Urethra
Structures Innervated
Inhibitory to internal urethral
sphincter
Motor to internal urethral
sphincter
Impulses conveyed to spinal cord
via pelvic splanchnics
Pain and general tactile impulses
conveyed to spinal cord via pudendal nerve
FEMALE GENITALIA
Internal genitalia of the female
(Figures 3-3 and 3-4)
Structure
Vagina
Overall
Description
Significance
• Extends from the uterus to • Vaginal vestibule—cleft
the vaginal vestibule
between labia minora
• Continuous superiorly with • Forms inferior part of birth
cervical canal at the
canal, route for menses,
external os of the uterus
and receives erect penis
• Vaginal fornices (anterior, during copulation
lateral, and posterior)
• Relations:
surround uterine cervix
• Anterior—bladder
• Posterior—rectum
• Lateral—levator ani
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Internal genitalia of the female (continued)
Structure
Vessels
Innervation
Uterus
Overall
Vessels
Description
• Arterial supply: uterine,
vaginal, and internal
pudendal
• Venous drainage: via
vaginal plexus to uterovaginal venous plexus to
internal iliac veins
• Motor: superior aspect—
visceral, inferior aspect—
somatic
• Sensory: superior aspect—
visceral, inferior aspect—
somatic
• Structure:
• Fundus: superior to
uterine tubes
• Body: main part, contains
uterine cavity
• Isthmus: narrow region
superior to cervix
• Cervix: possesses cervical canal with superior
and inferior openings:
the internal and
external os
• Relations:
• Anterior: bladder with
intervening vesicouterine
pouch
• Posterior: rectum with
intervening rectouterine
pouch
• Arterial supply: uterine
and ovarian
• Venous drainage: via
uterine plexus to uterovaginal plexus to internal
iliac veins
Significance
Origin of arteries: anterior
division of internal iliac
• Visceral: uterovaginal nerve
plexus contains sympathetics from the intermediolateral cell column,
conveyed via the sympathetic
chain and parasympathetics
from S2–S4 spinal cord
levels conveyed via pelvic
splanchnics, visceral
afferents travel with pelvic
splanchnics
• Somatic: pudendal nerve
• Thick-walled, muscular
organ
• Uterine cervix projects
into superior aspect of
vagina where it is
surrounded by the vaginal
fornices
• The uterus is supported by
ligaments (condensations
of pelvic fascia) near the
cervix—the transverse
cervical (cardinal) and
uterosacral ligaments
Origin of arteries: anterior
division of internal iliac
(continued)
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Internal genitalia of the female (continued)
Structure
Innervation
Uterine Tubes
Overall
Vessels
Innervation
Description
Innervation is from uterovaginal plexus
Significance
Uterovaginal nerve plexus
contains sympathetics from
the intermediolateral cell
column, conveyed via the
sympathetic chain and
parasympathetics from
S2–S4 spinal cord levels
conveyed via pelvic
splanchnics, visceral afferents
for pain travel with sympathetics above the pelvic pain
line and with pelvic splanchnics below the pelvic pain
line
• Bilateral; extend from the • Infundibulum—
junction of the fundus and
funnel-shaped end near
body of the uterus to open
ovary, possesses fimbriae:
into the peritoneal cavity
finger-like processes that
adjacent to the ovaries
envelope the medial pole
• Divided into infundibulum, of the ovary
ampulla, isthmus, and
• Ampulla—longest part,
uterine parts
normal site of fertilization
• Isthmus—part that enters
the uterus
• Uterine part—intramural
• Arterial supply: ovarian
Origin of arteries: abdominal
arteries
aorta
• Venous drainage: empties
into the ovarian veins and
the uterovaginal venous
plexus
Innervation is from uterine
Contain sympathetics from
and pelvic plexuses
the intermediolateral cell
column, conveyed via the
sympathetic chain and
parasympathetics from S2–S4
spinal cord levels conveyed
via pelvic splanchnics, visceral afferents travel with sympathetics as the uterine tubes
are above the pelvic pain line,
some visceral afferents travel
with pelvic splanchnics to
mediate reflexes
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Internal genitalia of the female (continued)
Structure
Ovaries
Description
Significance
Overall
• Located along lateral walls • Not covered by peritoneum
of pelvis
• The oocyte is ovulated into
• Held in relatively stable
the peritoneal cavity
position by the meso• Fimbriae of the uterine
varium, suspensory
tubes and the ciliated
ligament of the ovary,
lining of the uterine tubes
and the ligament of
typically guide the oocyte
the ovary
into the ampulla of the
uterine tube
Vessels
• Arterial supply: ovarian
• Origin: abdominal aorta
arteries
• The pampiniform plexus
• Venous drainage: small
of veins forms a pair of
veins drain to a pampiniovarian veins, the right
form venous plexus located ovarian vein empties
within the broad ligament
into the inferior vena
cava, whereas the left
drains into the left renal
vein
Innervation
Innervation is from uterine
and pelvic plexuses
Contain sympathetics from
the intermediolateral cell
column, conveyed via the
sympathetic chain and parasympathetics from S2–S4
spinal cord levels conveyed
via pelvic splanchnics, visceral
afferents travel with sympathetics as the uterine tubes are
above the pelvic pain line,
some visceral afferents travel
with pelvic splanchnics to
mediate reflexes
Additional Concept
Uterus
The uterus is typically anteverted (tipped anteriorly relative
to the vagina) and anteflexed (body is flexed anteriorly relative to the cervix), but variations in degree and position are
common.
The uterus is covered by peritoneum, which extends laterally off the uterus to the walls of the pelvis as the broad
ligament. The broad ligament conveys uterine neurovascular elements between its layers and contains the ovaries and
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uterine tubes. The suspensory ligament of the ovary is a
superolateral extension of the broad ligament from the
ovary that conveys the ovarian vessels. The ligament of the
ovary is found within the broad ligament and connects the
ovary to the uterine body, whereas the round ligament of
the uterus, also found within the broad ligament, projects
from the uterine body through the inguinal canal to terminate as connective tissue septa in the labia majora. A posterior extension of broad ligament invests the ovary—
the mesovarium, an extension of the broad ligament
invests the uterine tube—the mesosalpinx. Inferior to the
mesosalpinx the broad ligament is referred to as the
mesometrium.
Embryologic Origins
The ligament of the ovary and the round ligament of the
uterus are vestiges of the embryologic ovarian gubernaculums and are the equivalent of the very short scrotal ligament in the male.
External genitalia of the female
(Figure 3-4)
Structure
Description
Significance
Mons Pubis, Labia Major, and Labia Minora
Overall
• Mons pubis and labia
The labia minora are
majora are prominent,
connected anteriorly, the
fatty, pubic hair covered
posterior aspect of this
eminences surrounding
connection forms the
the pudendal cleft
frenulum of the clitoris,
• The labia minora are thin, whereas the anterior portion
fat-free folds of skin that forms the prepuce of the
enclose the vaginal vesti- clitoris, posteriorly they are
bule
united to form the frenulum
of the labia minora
Vessels
• Arterial supply: labial
• Origin of arteries: internal
branches
pudendal
• Venous drainage: parallels • During sexual arousal—
arterial supply
enlarge as a result of
increased blood in underlying structures
Innervation
Pudendal
Pudendal and its branches
(anterior and posterior labial)
are chief source of sensory
innervation
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
External genitalia of the female (continued)
Structure
Clitoris
Overall
Description
Parts: root and body;
composed of 2 crura made
of 2 erectile cylinders—the
corpora cavernosa and
the glans of the clitoris
Significance
• The corpora cavernosa
diverge posteriorly to form
crura that attach to
ischiopubic rami for support
and are invested by the
ischiocavernosus muscles
• The glans is the most
sensitive part of the
heavily innervated clitoris
Vessels
• Arterial supply: clitoral
• Origin of arteries: internal
branches
pudendal
• Venous drainage: parallels • Sexual arousal causes
arterial supply
engorgement and enlargement from increased arterial
supply and decreased
venous return
Innervation
Pudendal and uterovaginal • Pudendal branches (dorsal
plexus
nerve of the clitoris) provide
somatic sensation
• Parasympathetics from
uterovaginal plexus cause
erection
Bulbs of the Vestibule and Vestibular Glands
Overall
• Bulbs of the vestibule are • Bulbospongiosus invests
masses of erectile tissue
the bulbs of the vestibule
underlying the labia majora • The vestibular glands
• Vestibular glands lie post(greater and lesser) secrete
erior to the bulbs
mucus during sexual arousal to moisten the vestibule
Vessels
• Arterial supply: branches • Origin of arteries: internal
of the internal pudendal
pudendal
• Venous drainage parallels • Sexual arousal causes
arterial supply
engorgement and enlargement of the bulbs of the
vestibule from increased
arterial supply and
decreased venous return
Innervation
Uterovaginal plexus
Parasympathetics from
uterovaginal plexus cause
erection and increased
secretion from the glands
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Ovarian
artery and
vein
Ampulla
Uterine tube
Isthmus
Uterus
Ligament of
ovary
Infundibulum
Fimbriae
Ovary
Ureter
Uterine vein
Uterine artery
Ascending
branch
of uterine
artery
Vaginal artery
and vein
Vaginal venous plexus
A
Vagina
Internal
pudendal
artery
Uterine
cavity
Ampulla
of uterine
tube
Vagina
B
C
FIGURE 3-4. Female pelvis. A: Diagram of the arterial supply and
venous drainage of the ovaries, uterine tubes, uterus, and vagina.
B: Anteroposterior radiograph of the female pelvis after injection of
a radiopaque compound into the uterine cavity (hysterosalpingography). C: Diagram of the female genitalia. (From Dudek RW, Louis
TM. High-Yield Gross Anatomy. 3rd ed. Baltimore: Lippincott
Williams & Wilkins; 2008:185.)
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CLINICAL ANATOMY FOR YOUR POCKET
Additional Concept
Collectively, the external genitalia of the female are referred to
as the vulva or pudendum. The labia majora enclose a
space—pudendal cleft, which contain the labia minora and
vaginal vestibule, whereas the labia minor enclose the vaginal
vestibule, which contains the vaginal orifice, external urethral orifice (with openings of the ducts of the paraurethral
glands on either side), and openings of the vestibular glands.
MALE GENITALIA
Internal genitalia of the male
(Figures 3-3 and 3-5)
Structure
Description
Ductus Deferens (2)
Overall
Begins in scrotum at tail of
epididymis; ends by joining
duct of seminal gland to
form ejaculatory duct
Vessels
Innervation
Significance
• Proximal continuation of
epididymis
• Ascends as part of spermatic cord; possesses an
ampulla—an expansion
near its distal end
Origin of arteries: superior
vesical artery
• Arterial supply: artery to
the ductus deferens
• Venous drainage parallels
arteries
Innervation is from the
Contains sympathetics from
pelvic plexus
the intermediolateral cell
column, conveyed via the
sympathetic chain and sacral
splanchnics and parasympathetics from S2–S4 spinal
cord levels conveyed via
pelvic splanchnics
Seminal Glands
Overall
• Located between urinary • Secrete a thick alkaline
bladder and rectum—
fluid that contributes to
separated from it by the
semen
rectovesical pouch
• Duct joins with ductus
deferens to form ejaculatory duct
Vessels
• Arterial supply:
Origin of arteries: inferior
small branches
vesical and middle rectal
• Venous drainage parallels
arteries
(continued)
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Internal genitalia of the male (continued)
Structure
Innervation
Description
Innervation is from the
pelvic plexus
Ejaculatory Ducts
Overall
Formed by the union of the
ductus deferens and the
duct of the seminal gland
Vessels
Innervation
Prostate
Overall
• Arterial supply: artery to
the ductus deferens
• Venous drainage is to
prostatic and vesical
venous plexuses
Innervation is from the
pelvic plexus
Significance
Contains sympathetics from
the intermediolateral cell
column, conveyed via the
sympathetic chain and parasympathetics from S2–S4
spinal cord levels conveyed
via pelvic splanchnics
• Open near the prostatic
utricle in the prostatic
urethra
• Secrete fluid from the
seminal gland and sperm
from the ductus deferens
Origin of arteries: superior
(or inferior) vesical artery
Contains sympathetics from
the intermediolateral cell
column, conveyed via the
sympathetic chain and parasympathetics from S2–S4
spinal cord levels conveyed
via pelvic splanchnics
Lobes:
• Surrounds prostatic urethra
• Lateral (right and left)—
Possesses fibrous capsule—
largest, located on sides
fibrous capsule of the
of prostatic urethra
prostate, which invests
• Isthmus—anterior to
nerves and vessels supplyurethra, muscular continua- ing the gland and is
tion of internal urethral
surrounded by the visceral
sphincter
layer of pelvic fascia—
• Posterior—posterior to
prostatic sheath, puboprosurethra, palpable via
tatic ligaments, and the
rectum
rectovesical septum
• Middle—between urethra • Prostatic ducts (20–30)
and ejaculatory ducts;
open into prostatic sinuses
enlargement may interfere
on the side of the seminal
with urination
colliculus in the prostatic
urethra where they convey
a milky alkaline secretion
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Internal genitalia of the male (continued)
Structure
Description
Vessels
• Arterial supply: prostatic • Origin of arteries: internal
arteries
pudendal, middle rectal,
• Venous drainage is to proand inferior vesical
static plexus associated
• Venous plexus drains
with the fibrous capsule
into internal iliac veins
and communicates with
internal vertebral and
vesical venous plexuses—
potential routes for
metastasis
Significance
Innervation
Innervation is from the pelvic Contains sympathetics from
plexus
the intermediolateral cell
column, conveyed via the
sympathetic chain and parasympathetics from S2–S4
spinal cord levels conveyed
via pelvic splanchnics
Bulbourethral Glands (2)
Overall
Lie posterolateral to the
membranous urethra within
the external urethral
sphincter
The ducts of the bulbourethral
glands pierce the perineal
membrane to open into the
bulbous part of the penile
urethra, into which they
secrete a mucus-like
secretion
Vessels
• Arterial supply: perineal
Origin of arteries: internal
branches
pudendal
• Venous drainage parallels
arterial supply
Innervation
Innervation is from the
pelvic plexus
Contains sympathetics from
the intermediolateral cell
column, conveyed via the
sympathetic chain and parasympathetics from S2–S4
spinal cord levels conveyed
via pelvic splanchnics
Clinical Significance
Vasectomy
The vasectomy (ligation of the ductus deferens) is a common method of sterilization in the male.
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Spermatic cord
Testicular vein
(pampiniform venous plexus)
Ductus deferens
Efferent ductules
Testicular artery
Rete testis in
mediastinum of testis
Seminiferous
tubule
head
Epididymis body
tail
Straight tubule
Septum
Visceral layer o
tunica vaginalis
Cavity of
tunica vaginalis
Parietal layer of
tunica vaginalis
Tunica albuginea
A
Lateral view
Urethral
crest
Prostate
Openings of
prostatic ducts
into prostatic
sinuses
Opening of
ejaculatory duct
Bulbourethral
glands
Prostatic
utricle
Seminal
colliculus
External
urethral
sphincter
Perineal
membrane
B
FIGURE 3-5. A: Testis and (B) prostate. (From Dudek RW, Louis
TM. High-Yield Gross Anatomy. 3rd ed. Baltimore: Lippincott
Williams & Wilkins; 2008:196.)
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Enlargement of the Prostate
Hypertrophy of the prostate is common after middle age
and can interfere with urination. The seminal glands and
prostate are easily palpable from the rectum. Cancer of the
prostate affects 1 in 10 males.
External genitalia of the male
(Figures 3-5 and 3-6)
Structure
Description
Penile Urethra
Overall
• Distal to the membranous
urethra
• Begins at perineal membrane, ends at external
urethral orifice
• Expansion at proximal end
in bulb of penis—the intrabulbar fossa and
at distal end—the
navicular fossa
Vessels
• Arterial supply: dorsal
artery of the penis
• Venous supply: parallels
arterial supply
Innervation
Pudendal nerve
Testes
Overall
• Located in scrotum
• Outer layer—tunica
albuginea surrounded by
tunica vaginalis
• An expansion of tunica
albuginea on posterior
aspect of testis forms
mediastinum testis, which
sends septa into testicle
to form lobules
• Lobules contain seminiferous tubules that join
posteriorly as straight
tubules that traverse the
mediastinum as the rete
testis
Significance
• Membranous urethra
traverses the deep
perineal pouch and is surrounded by the external
urethral sphincter
• Bulbourethral glands
open into proximal part,
whereas urethral glands
open along length to
lubricate urethra
Origin of arteries: internal
pudendal artery
Pain and general tactile
impulses conveyed to
spinal cord via pudendal
nerve
• Produce sperms and
testosterone
• Tunica vaginalis is an
extension of peritoneum,
divided into visceral layer
on surface of testis and
parietal layer lining scrotal
wall
• Seminiferous tubules are
site of sperm production
• Leydig cells in interstitial
tissue are site of testosterone production
• Rete testis convey sperm
to head of epididymis via
efferent ductules
(continued)
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External genitalia of the male (continued)
Structure
Vessels
Innervation
Penis
Overall
Vessels
Innervation
Description
Significance
• Arterial supply: testicular
• Origin of arteries: abdominal
(form part of spermatic
aorta
cord)
• Pampiniform plexus helps
• Venous drainage: pampiniwith temperature regulation
form plexus
for sperm formation and
forms the left (empties into
left renal vein) and right
(empties into inferior vena
cava) testicular veins
Parasympathetic and
• Parasympathetics: from
sympathetic fibers from
vagus
testicular plexus
• Sympathetics: from thoracic
spinal cord and paravertebral chain
• Parts: root, body, and glans • The dorsal corpora caver• Formed of 3 cylinders of
nosa are surrounded by a
erectile tissue: 1 corpus
thick tunica albuginea that
spongiosum and
make for rigid erection,they
2 corpora cavernosa
separate into 2 crura proxithat are surrounded by the
mally and fuse with the
deep fascia of the penis
ischiopubic rami for support
• The ventrally located corpus
spongiosum is traversed
by the penile urethra and
remains less rigid
• Arterial supply: deep and • Origin of arteries: internal
dorsal arteries of the penis
pudendal
• Venous drainage: blood
• Deep dorsal vein conveys
from the erectile tissues
blood to the prostatic
drains to deep dorsal vein
plexus of veins
of penis, blood from remaining penile structures drains
via the superficial dorsal
veins to the external pudendal vein
Receives parasympathetic, Contain sympathetics from
sympathetic and sensory
the intermediolateral cell
fibers
column, conveyed via the
sympathetic chain and parasympathetics from S2–S4
spinal cord levels conveyed
via pelvic splanchnics, afferents are carried by the dorsal
nerve of the penis, a branch
of the pudendal nerve
The scrotum is an outpocketing of the anterior abdominal wall
and is presented in Chapter 2.The testicles are presented with the
male external genitalia.
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CLINICAL ANATOMY FOR YOUR POCKET
Common
iliac artery
and vein
Internal
iliac artery
and vein
External iliac
artery and vein
Ureter
Sciatic
nerve
Cut edge of
peritoneum
Rectovesical
pouch
Ductus
deferens
Urinary
bladder
Seminal
gland
Retropubic
space
Rectum
(ampulla)
Internal
urethral
orifice
Ejaculatory
duct
Prostatic
urethra
Deep dorsal
vein of penis
Prostate
External
urethral
sphincter
Levator ani
Bulbourethral
gland
Deep transverse
perineal muscle
Spongy
urethra
Corpus
cavernosum
Corpus
spongiosum
Glans
penis
External
urethral
orifice
Bulb of penis
Spermatic cord
Internal anal
sphincter
Testicular artery
Pampiniform venous plexus
Epididymis
Testis
Scrotum
Medial view
FIGURE 3-6. Male midsagittal through pelvis. (From Moore KL,
Dalley AF. Clinically Oriented Anatomy. 5th ed. Baltimore: Lippincott
Williams & Wilkins; 2006:407.)
Additional Concept
Structure of the Penis
The root of the penis is located in the superficial pouch
and consists of: two crura—each formed of corpora cavernosa, the single bulb—formed of an expanded proximal
portion of the corpora spongiosa containing the proximal
penile urethra and the muscles covering each—the ischiocavernosus invests the crura, whereas the bulbospongiosus
invests the bulb. The body (or shaft) of the penis is the
main, pendulous part. The body expands on the distal end
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109
of the penis to form the glans (or head) penis. The glans
projects proximally over the corpora to form the corona.
The skin of the penis extends over the glans forming the
prepuce. The external urethral orifice opens near the distal tip of the glans.
Penile Support
The penis is supported by the suspensory ligament of
the penis—an extension of deep fascia that fuses with the
deep fascia of the penis. The fundiform ligament of the
penis is an extension of the membranous layer of superficial fascia, which blends with the superficial fascia of the
penis.
Clinical Significance
Erection and Ejaculation
During erection, parasympathetic fibers relax the
smooth muscles in arteries supplying the corpora cavernosa, allowing blood to flow in, whereas the bulbospongiosus and ischiocavernosus impede venous return.
During ejaculation, sympathetic fibers close the internal
urethral sphincter, parasympathetic fibers cause contraction of the smooth muscle of the urethra and the pudendal nerve causes rhythmic contraction of the bulbospongiosus.
Lymphatic Drainage
The lymphatic drainage of the testes follow the testicular
vessels to lumbar lymph nodes, whereas lymphatic
drainage of the scrotum is to superficial inguinal lymph
nodes.
PERINEUM
Structure of the perineum
Area
Overall
Structure
Significance
Boundaries:
• Diamond-shaped area
• Anterior—pubic symphysis
between thighs
• Posterior—coccyx
• Divided into urogenital
• Posterolateral—
and anal triangles by a line
sacrotuberous ligaments
drawn between the ischial
• Anterolateral—ischiopubic tuberosities
ramus
(continued)
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Structure of the perineum (continued)
Area
Urogenital
triangle
Anal triangle
Ischioanal
fossae
Pudendal canal
Superficial
perineal pouch
Deep perineal
pouch
Structure
Significance
Anterior half of the diamond- Contains the scrotum and the
shaped perineal region
root of the penis in males
and the vulva in females
Posterior half of the
Contains the anal canal and
diamond-shaped perineal
anus and the ischioanal
region
fossae in both sexes
• Wedge-shaped, fascial
• The superiorly oriented
spaces between the
apex is located along the
levator ani (medially), the
tendinous arch of the
obturator internus (laterally), levator ani
and skin of the buttock
• Fat-filled space traversed
(inferiorly)
by inferior rectal
• Anterior recess of fossae
neurovascular elements
extend into deep perineal • Fat allows for expansion of
pouch
anal canal, anus and rectum
during defecation
• Passageway composed of Conveys pudendal nerve and
obturator fascia along the internal pudendal vessels
lateral wall of the ischioanal fossa
• Begins at lesser sciatic
notch and ends at the
perineal membrane
Space between the perineal Contains roots of penis or
membrane and membranous clitoris, ischiocavernosus and
layer of superficial fascia
bulbospongiosus, superficial
transverse perinei, greater
vestibular glands (female),
and deep perineal branches
of internal pudendal vessels
and pudendal nerve
Space between the perineal Contains anterior recess of
membrane and the inferior ischioanal fossa, deep
fascia of the pelvic
transverse perinei, external
diaphragm
urethral sphincter, and part
of the urethra (and bulbourethral glands in the male)
The rectum and anal canal are presented with the large intestine
in Chapter 2.
Additional Concept
Pudendal Neurovascular Elements
Before entering the pudendal canal, the pudendal nerve
and internal pudendal vessels give off inferior rectal
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branches that course across the fossa to the rectum, anal
canal, and anus. The pudendal nerve and internal pudendal
vessels terminate by dividing into perineal (superficial
pouch structures), dorsal artery and nerve of the penis or
clitoris branches (deep pouch structures), and posterior
scrotal or labial branches.
Fascia of the perineum
Fascia/Connective Tissue
Membranous layer of
superficial fascia (Colles’)
Perineal membrane
Perineal body
Significance/Structure
• Along the posterior edge of the urogenital
membrane, fuses with the perineal
membrane and perineal body
• Laterally, fuses with the fascia lata of
the thigh; anteriorly, it is continuous with
the membranous layer of superficial fascia
of the abdomen (Scarpa’s)
• Deep fascia spanning the urogenital
triangle, investing the bulbospongiosus,
ischiocavernosus, and transverse perinei
muscles
• Pierced by the urethra and the vagina in
the female
• Forms roof of superficial perineal
pouch
• Fibromuscular mass between the anus
and perineal membrane
• Serves as an attachment for bulbospongiosus, transverse perineal muscles,
external anal sphincter, and levator ani
Additional Concept
The fatty layer of superficial fascia in the perineum is continuous with the fatty layer over the abdomen and makes up
the bulk of the two labia majora and mons pubis in
females.
Clinical Significance
Episiotomy
Damage to the perineal body as may occur during childbirth, trauma, disease, or infection may lead to prolapse of
the pelvic viscera. An episiotomy is performed during childbirth to enlarge the vaginal orifice and spare lasting damage
to the perineal body.
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Muscles of the perineum
Proximal
Muscle Attachment
BulboMale—
spongiosus perineal body
and median
raphe; female—
perineal body
Distal
Attachment Innervation
Male—
Deep perineal
perineal membrane, corpora
spongiosum,
and cavernosa
and fascia of
bulb of penis;
female—
fascia of bulbs
of vestibule
Ischiocav- Ischiopubic rami Crura of penis
ernosus
and ischial
or clitoris
tuberosities
External
Coccyx via
Perineal body, Inferior rectal
anal
anococcygeal
surrounds
sphincter ligament and
anus
skin around anus
External
Ischiopubic rami Surrounds
Deep
urethral
and ischial
urethra;
perineal
sphincter tuberosities
males—
ascends to
prostate,
females—
forms uterovaginal
sphincter
Deep
Perineal body
transverse
perineal
Superficial Ischial
transverse tuberosities
perineal
Main Actions
Male—assists
in erection and
ejaculation and
emptying of
urethra after
micturition;
female—
assists in
erection
Maintains
erection of
penis or clitoris
Closes anus,
supports
perineal body
and pelvic floor
Compresses
urethra for the
maintenance of
urinary
continence
Fixes perineal
body to support
pelvic viscera
and resist intraabdominal
pressure
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Back
4
INTRODUCTION
The back consists of the vertebral column, spinal cord and
nerves, and the muscles responsible for posture and movement of the vertebral column.
VERTEBRAL COLUMN
Vertebral column structure
The vertebral column is composed of intervertebral disks
and 33 vertebrae:
■
■
■
■
■
7 cervical
12 thoracic
5 lumbar
5 fused sacral
4 fused coccygeal
The vertebral column protects the spinal cord and spinal
nerves and supports the weight of the body.
Curvatures of the vertebral column
Curvature
Cervical
Lumbar
Thoracic
Sacral
Description
• Concave posteriorly (lordosis)
• Secondary curvatures—cervical
develops when infant begins to hold
up head, lumbar develops when
infant begins to walk
• Concave anteriorly (kyphosis)
• Primary curvatures—present at birth
Significance
Provide
resiliency to
vertebral
column
Additional Concept
Axial and Appendicular Skeleton
The axial skeleton is composed of the vertebral column,
cranium, and thoracic cage (ribs, sternum, and hyoid bone).
The appendicular skeleton is everything else (pectoral and
pelvic girdles and the limbs).
113
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Normal
Kyphosis
Lordosis
Normal
Scoliosis
FIGURE 4-1. Curvatures of the vertebral column. (From Dudek
RW, Louis TM. High-Yield Gross Anatomy. 3rd ed. Baltimore:
Lippincott Williams & Wilkins; 2008:2.)
Clinical Significance
Excess Curvature
Excess thoracic kyphosis (humpback) is often caused by
osteoporosis. Excess lumbar lordosis (sway back) is often
seen in pregnancy. Scoliosis (crooked back) is a common
lateral deformity of the vertebral column in pubertal girls.
Structure of the vertebrae
The vertebrae generally increase in size as progress inferiorly, a reflection of the increasing weight of the body.
Vertebrae possess regional characteristics.
Vertebrae Characteristic Significance
• Most anterior; supports body weight,
Typical
Body
progressively larger as move inferiorly
down column
• Covered on superior and inferior surface by
hyaline cartilage
• Peripheral border possesses epiphysial
rim—a slight elevation that provide
attachment for the annuli fibrosi of the
intervertebral discs
• Posterior to the body
Vertebral arch
• Formed by a pair of lamina and a pair of
pedicles
• With the posterior aspect of the body, forms
the vertebral foramen—contains spinal cord
(continued)
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Structure of the vertebrae (continued)
Vertebrae Characteristic Significance
Lamina
• Pair of platelike processes that form the
posterior part of vertebral arch
• Meet posteriorly in the midline
Pedicle
• Pair of short processes that join vertebral
arch to body
• Form anterior part of vertebral arch
• Notch on superior and inferior surfaces—
vertebral notches: successive vertebral
notches form intervertebral foramina,
which permit passage of nerve roots and
vessels
Spinous
• Midline posterior projection from junction
process
of laminae
• Allows for muscle and ligament attachments
Transverse
• Project posterolaterally from vertebral
processes (2)
arch
• Allow for muscle attachment and articulation
with ribs (thoracic)
Superior
• Arise from junction of pedicles and laminae
articular
• Possess facet (zygapophysial) joints for
processes (2)
articulation with adjacent processes
• Limit undo movement of vertebral column
Inferior
and maintain vertebral alignment
articular
processes (2)
Identifying Regional Characteristics
Body
Superior surfaces possess uncinate process
Cervical
Spinous
• Bifid
process
• C7, long—vertebra prominens
Transverse
Possess transverse foramina for passage of
process
vertebral vessels and sympathetic fibers
Spinous
Long, inferiorly directed
Thoracic
process
Transverse
Possess facets for articulation with head and
process
tubercle of ribs
Massive for weight bearing
Body
Lumbar
Short and stout
Spinous
process
Fused
Sacral
• 5 sacral vertebrae fuse to form sacrum
• Remnants of characteristics typical to
vertebrae are still identifiable
Coccygeal Fused
Remnant of taillike caudal eminence
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CLINICAL ANATOMY FOR YOUR POCKET
Additional Concept
Vertebral (Spinal) Canal
Adjacent vertebral foramina form the vertebral canal—
contain the spinal cord, meninges, nerve roots, vascular elements (internal venous plexus), and fat.
Clinical Concept
Spina Bifida
Failure of the vertebral arches to form correctly results in
spina bifida; spina bifida occulta (a mild form) is often
asymptomatic. More serious forms may result in herniation
of meninges—meningocele or meninges and neural tissue
through the deficiency.
Vertebral Artery
The long, tortuous course of the vertebral artery through
the transverse cervical foramina may increase risk of insult
because of stretch from rotation of the head, resulting in
reduced blood flow to the brain, possibly causing dizziness
and light-headedness.
Spinous process
Dura mater
Arachnoid
Pia mater
Superior
articular
facet
Internal vertebral venous plexus
Lamina
Spinal cord
Posterior root
of spinal nerve
Root
sheath
Spinal ganglion
Vertebral
artery
Vertebral
veins
Anterior root of
spinal nerve
Pedicle
Vertebral body
Nucleus pulposus
Anulus
fibrosus
Posterior
longitudinal
ligament
Intervertebral cartilage (disk)
Anterior longitudinal ligament
FIGURE 4-2. Typical vertebra, superior aspect. (Asset provided by
Anatomical Chart Company.)
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Joints of the back
(Figure 4-2)
Joint
Atlantooccipital
Type
Synovial
Articulation
C1 vertebra
with occipital
bone
Atlantoaxial— Lateral— C1 with C2
2 lateral and synovial; vertebrae
1 median
median—
pivot
Intervertebral
Cartilaginous
Surfaces of
adjacent
vertebrae
connected by
intervertebral
discs
Uncovertebral Synovial
Adjacent
cervical
vertebrae
Zygapophysial
(facet)
Between
superior and
inferior
articulating
processes of
adjacent
vertebrae
Structure
• Strengthened by anterior and
posterior atlanto-occipital
membranes
• Strengthened and maintained
by the cruciform ligament—
formed by longitudinal
bands and the transverse
ligament of the atlas
• Alar ligaments—prevent
excessive rotation
• The tectorial membrane—
continuation of posterior
longitudinal ligament, covers
the alar and transverse
ligaments
• Intervertebral discs provide
strong attachment between
adjacent vertebral bodies—
consist of outer
fibrocartilaginous anulus
fibrosis (attaches to epiphysial
rim) and central compressible
nucleus pulposus
• Anterior and posterior
longitudinal ligaments
strengthen, provide stability,
and limit extension and flexion
of the vertebral column,
respectively
Uncinate process on superior
surface of cervical vertebral
bodies with inferior surface of
vertebral body superior to it
• Strengthened by accessory
ligaments
• Allow for gliding movements
Additional Concept
Multiple accessory ligaments help to strengthen and support
the joints of the vertebral column:
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■
■
■
■
■
CLINICAL ANATOMY FOR YOUR POCKET
ligamentum flavum—connects adjacent vertebral arches
supraspinous—connects adjacent spinous processes
interspinous—connects adjacent spinous processes
ligamentum nuchae—connects external occipital protuberance and cervical spinous processes
intertransverse ligaments—connects adjacent transverse processes
Clinical Significance
Slipped Disc
Herniation of the nucleus pulposus into or through the anulus fibrosis is a common cause of lower back pain and is
often called a slipped or ruptured disk.
SPINAL CORD
Structure of the spinal cord
(Figure 4-2)
The spinal cord is continuous superiorly with the medulla at
the foramen magnum and ends inferiorly at the L1–L2 vertebral level. The spinal cord serves as a reflex center and
conduction pathway, connecting the brain to the periphery.
It is located within the vertebral canal and gives rise to 31
pairs of spinal nerves.
Feature
Cervical
enlargement
Description
Enlarged portion of spinal
cord from C4–T1
Lumbar
enlargement
Enlarged portion of spinal
cord from L1–S3
Medullary
cone
Tapering end of the spinal
cord
Formed from anterior and
posterior roots that arise
from the lumbar
enlargement and
medullary cone
Spinal nerves • 8 cervical, 12 thoracic, 5
lumbar, 5 sacral, 1
(31 pairs)
coccygeal
Cauda
equina
Significance
Gives rise to the anterior rami
that form the brachial
plexus—innervates upper limbs
Gives rise to the anterior rami
that form the lumbosacral
plexus—innervates lower limbs
• Located at L1–L2 vertebral
level
• Nerve roots contribute to
cauda equina
Located in the lumbar cistern—
continuation of subarachnoid
space in the dural sac caudal to
the medullary cone
• Formed of anterior and
posterior roots from the
spinal cord segments
(continued)
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Structure of the spinal cord (continued)
Feature
Description
Significance
• Terminate by dividing into
• Each contains somatic
anterior and posterior primary
afferent and efferent
rami
fibers and between
T1–L2 contain
presynaptic sympathetic
fibers, between S2–S4
contain presynaptic
parasympathetic fibers
• Anterior roots contain fibers
• Anterior—efferent
Roots—
of somatic and visceral motor
anterior and • Posterior—afferent
neurons
• Join to form spinal nerves
posterior
• Posterior roots contain somatic
and visceral afferent fibers
Located along posterior root Contains primary afferent cell
Spinal
bodies of the somatic and
ganglion
visceral sensory systems
Divided into posterior, lateral
Located on the inside of
Gray matter
(visceral motor, between T1–L2),
the spinal cord, deep to
and anterior (somatic motor) horns
the white matter
• Divided into anterior, lateral,
White matter Located on the outside of
and posterior funiculi
the spinal cord, superficial
• Contains ascending (afferent)
to the gray matter
and descending (efferent)
fiber tracts
• Anterior—supply innervation
Terminal branches of
Rami—
to majority of body, often
anterior and spinal nerves
form plexuses
posterior
• Posterior—supply segmental
innervation to the back
Vessels of the spinal cord
(Figure 4-2)
Artery
Anterior spinal
Origin
Vertebral
Posterior
spinal (2)
Either vertebral or
posterior inferior
cerebellar
Ascending cervical,
deep cervical,
vertebral, posterior
intercostal and lumbar
Segmental
Description
Supplies anterior 2/3 of spinal
cord superiorly
Supplies posterior 1/3 of spinal
cord superiorly
• Enter vertebral canal through
intervertebral foramina
• Supply spinal cord and
coverings segmentally
• Anastomose with spinal arteries
(continued)
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Vessels of the spinal cord (continued)
Artery
Radicular—
anterior and
posterior
Medullary
Origin
Segmental
Vein
Anterior
spinal (3)
Posterior
spinal (3)
Medullary
Radicular
Internal vertebral
venous plexus
Termination
Drained by medullary
and radicular veins
Description
Supply nerve roots and
associated meninges
• Variable, but prevalent in the
region of the cervical and
lumbosacral enlargements
• Supplement spinal arterial supply
Description
• Generally parallel arterial supply
• Eventually drain into the
internal vertebral venous plexus
Drain into internal
vertebral venous plexus
Drain into dural
sinuses of cranial
vault
• Communicates with external
venous plexus on external
aspect of vertebrae
• Potential route for infection
spread from cranial vault
Structure of spinal cord meninges
(Figure 4-2)
The spinal cord meninges support and protect the nerve
roots and form the subarachnoid space. From superficial to
deep:
■
■
■
dura mater
arachnoid mater
pia mater
Structure
Dura mater
Epidural space
Dural root
sheaths
Description
• Outer layer of meninges
• Continuous with meningeal
layer of cranial dura
superiorly
Between vertebrae and dura
mater
Extensions of the dural sac
that cover spinal nerve roots
and spinal nerves
Significance
• Tough, fibrous layer
• Separated from
vertebrae by epidural
space
Contains fat and the internal
vertebral venous plexus
• Sheaths end by blending
with the epineurium of
the spinal nerves
• Extend through
intervertebral foramina
(continued)
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Structure of spinal cord meninges (continued)
Structure
Dural sac
Subdural space
Arachnoid mater
Subarachnoid
space
Arachnoid
trabeculae
Lumbar cistern
Description
Long tubular sac that
contains the spinal cord and
cerebrospinal fluid
• Potential space, between
the dura and arachnoid
mater
• Filled with a loosely
adhered cell layer
• Middle meningeal layer
• Encloses the subarachnoid
space
Between arachnoid mater
and pia mater
Connective tissue strands
that connect the arachnoid
and pia mater
Inferior prolongation of the
subarachnoid space
• Delicate inner (deep)
meninge in contact with
the spinal cord
• Deep to the subarachnoid
space
• 21 pairs
Denticulate
• Lateral extensions of pia
ligaments
mater between the anterior
and posterior roots
Filum terminale— • Inferior extension of pia
mater
internus and
• Extends from medullary
externus
cone to inferior aspect of
dural sac (interna) and to
the tip of the coccyx
(externa)
Pia mater
Significance
Begins at the foramen
magnum, anchored to
coccyx by filum terminale
Site of subdural hematoma
when trauma causes
bleeding into space
Lines dural sac and dural
root sheaths
• Contains cerebrospinal
fluid, arachnoid
trabeculae, and blood
vessels
• Inferior prolongation
forms the lumbar cistern
Span the subarachnoid
space
Contains the cauda
equina and filum
terminale internus
Invests spinal blood
vessels and the roots of
the spinal nerves
Anchors spinal cord to the
dura mater
Anchors inferior end of
spinal cord to dura mater
and coccyx
Clinical Significance
Anesthesia
Epidural anesthesia entails injection of a local anesthetic
around the sacral spinal nerves, external to the dural sac.
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Spinal Tap and Block
A lumbar puncture (spinal tap) is performed for extraction
of cerebrospinal fluid from the lumbar cistern for examination. A spinal block entails introduction of an anesthetic
into the cerebrospinal fluid through a lumbar puncture.
MUSCULATURE
Muscles of the back
The muscles located on the back are divided into extrinsic and
intrinsic. The extrinsic muscles of the back are discussed
with the upper limb (superficial layer) and thorax (intermediate layer), with which they are associated functionally.
Intrinsic
Back
Proximal
Distal
Main
Muscle
Attachment Attachment Innervation Actions
Superficial Layer
• Capitis—
mastoid
process
and
superior
nuchal
line
• Cervicis—
transverse
processes
of C1–C4
vertebrae
Intermediate Layer (Erector Spinae)
Segmental
innervation
by posterior
rami of
spinal
nerves
• Laterally flex
neck and
rotate head
• Extend head
and neck
when
contracting
bilaterally
Angles
of lower
ribs and
transverse
processes of
thoracic and
cervical
vertebrae
Segmental
innervation
by posterior
rami of
spinal
nerves
Laterally flex
vertebral
column; extend
vertebral
column (chief
extensor of
column) and
head, control
flexion by
gradual
relaxation of
fibers when
acting
bilaterally
Splenius—
capitis and
cervicis
Nuchal
ligament
and C7–T4
vertebrae
Arise as
fused
muscle
mass from
iliac crest
and sacrum,
sacroiliac
ligaments,
and spinous
Longissimus— processes
thoracis,
of sacral
cervicis and
and lumbar
capitis
vertebrae
Iliocostalis—
lumborum,
thoracis,
and cervicis
Angles of
ribs and
transverse
processes of
thoracic and
(continued)
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Muscles of the back (continued)
Intrinsic
Back
Muscle
Proximal
Distal
Main
Attachment Attachment Innervation Actions
cervical
vertebrae
and mastoid
process
Spinous
Spinalis—
processes of
thoracis,
upper
cervicis,
thoracic
and capitis
vertebrae
and cranium
Deep Layer (Transversospinal Group)
Segmental
Spinous
• Extends
Semispinalis— Transverse
innervation
processes
thoracic and
thoracis,
processes
by posterior
of 4–6
cervical
cervicis and
C4–T12
rami of
vertebrae
regions of
capitis
superior and spinal
vertebral
nerves
occipital
column and
bone
head
• Rotates
vertebral
column
Posterior
Spinous
Stabilizes
Multifidus
sacrum,
processes
vertebrae
posterior
of 2–4
iliac spine,
vertebrae
transverse
superior
processes
T1–T3 and
articular
processes
of C4–C7
Transverse
Junction of
Rotators—
processes
lamina and
brevis and
transverse
longus
process or
spinous
processes of
1 (brevis), 2
(longus)
vertebrae
superior
Extension and
Spinous
Spinous
Interspinales
rotation of
processes
processes of
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Muscles of the back (continued)
Intrinsic
Back
Muscle
Intertransversarii
Levator
costarum
Proximal
Attachment
of cervical
and lumbar
vertebrae
Transverse
processes
of cervical
and lumbar
vertebrae
Distal
Main
Attachment Innervation Actions
vertebral
vertebrae
column
immediately
superior
Lateral
Transverse
flexion and
processes of
stabilization of
adjacent
vertebral
vertebrae
column
Transverse
processes
of C7–T11
vertebrae
Adjacent rib
between
tubercle and
angle
Elevate ribs,
assist in
lateral flexion
of vertebral
column
Additional Concept
The muscles of the back may be divided into 3 layers:
superficial—associated with the upper limb; intermediate—associated with the thorax; and deep—associated
with movement of the vertebral column. They are also
known as the intrinsic muscles of the back or true back
muscles.
Mnemonic
Erector Spinae Muscles
From lateral to medial:
I Like Spaghetti
Iliocostalis
Longissimus
Spinalis
Suboccipital triangle
The suboccipital triangle is a muscular triangle inferior to the
occipital region of the head; it contains the vertebral artery,
posterior arch of the atlas, and the suboccipital nerve (C1).
Suboccipital Region
Borders
Structure
• Roof—semispinalis capitis
• Floor—atlanto-occipital
membrane and arch of C1
Significance
• Identifiable
muscular
triangle in the
(continued)
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125
Suboccipital triangle (continued)
Suboccipital Region
Muscles
Rectus capitis posterior
major
Structure
• Superomedial—rectus capitis
posterior major
• Superolateral—superior
oblique
• Inferolateral—inferior oblique
• Proximal attachment: C2
spinous process
• Distal attachment: inferior
nuchal line of occipital bone
Rectus capitis posterior • Proximal attachment: C1
posterior arch
minor
• Distal attachment: inferior
nuchal line of occipital bone
Inferior oblique of the • Proximal attachment: C2
spinous process
head
• Distal attachment: C1
transverse process
Superior oblique of the • Proximal attachment: C1
transverse process
head
• Distal attachment: occipital
bone
Significance
suboccipital
region
• Actions:
extend and
rotate head
• Innervation:
suboccipital
nerve (C1)
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Lower Limb
The pelvic (anterior) aspect of the bones of the gluteal region are
described in Chapters 3 and 4.
INTRODUCTION
The lower limb is divided for descriptive purposes by skeletal elements into:
■
■
■
■
gluteal region—portion between thigh and trunk posteriorly
that includes the pelvic girdle: ilium, ischium, and pubis
thigh—portion between the gluteal region posteriorly and
the knee that includes the femur
leg—portion between the knee and ankle that includes the
tibia and fibula
foot—portion distal to the ankle that includes the
metatarsals and phalanges; the tarsal bones form the ankle
GLUTEAL REGION
Bones of the gluteal region
(Figure 5-1)
Bone
Sacrum
Significance
Fused spinal processes of sacral vertebrae
Transmit posterior rami of first 4 sacral
nerves
Inferior opening of the vertebral canal
between the sacral cornu (horns)
Coccyx
Apex of the coccyx • Directed inferiorly
• Coccyx is formed by the fusion of the
4 inferiormost vertebrae
Hip Bone (Pelvic Bone, Coxal Bone)—Fusion of the 3 Bones Below
Ilium
Body of ilium
Contributes to the acetabulum
Wing (ala) of ilium • Concave surface
• Marked by the anterior, posterior, and
inferior gluteal lines
(continued)
126
Feature
Median crest
Posterior sacral
foramina
Sacral hiatus
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Bones of the gluteal region (continued)
Bone
Characteristic
Iliac crest
Posterior superior
iliac spine
Posterior inferior
iliac spine
Anterior gluteal
line
Ischium
Pubis
Significance
• Bony ridge between the anterior superior,
and posterior superior iliac spines
• Attachment for fascia lata, tensor of fascia
lata, external oblique, internal oblique,
transverse abdominal, latissimus dorsi,
quadratus lumborum, erector spinae, and
iliacus
Attachment for sacroiliac ligaments and
multifidus
Part of auricular surface of ilium
• Gluteus medius attaches between anterior
and posterior gluteal lines
• Gluteus minimus attaches between anterior
and inferior gluteal lines
Posterior gluteal
• Gluteus maximus attaches posterior to the
line
posterior gluteal line
• Gluteus medius attaches between anterior
and posterior gluteal lines
Inferior gluteal line Gluteus minimus attaches between anterior
and inferior gluteal lines
Greater sciatic
• Notch converted into greater sciatic foranotch/foramen
men by the sacrospinous ligament
• Major passageway for structures exiting
the pelvis and entering the gluteal region—
including: piriformis, superior and inferior
gluteal vessels and nerves, sciatic and
posterior femoral cutaneous nerves,
internal pudendal vessels, pudendal nerve
and nerves to obturator internus, and
quadratus femoris
Ischial spine
Attachment for superior gemellus and
sacrospinous ligament
Ischial tuberosity
Attachment for hamstring portion of adductor
magnus, hamstrings, and sacrotuberous
ligament
Body
Contributes to the acetabulum
Lesser sciatic
• Notch converted into lesser sciatic foramen
notch/foramen
by the sacrospinous and sacrotuberous
ligaments
• Passageway for structures exiting and
entering the perineum—tendon of obturator
internus (exiting), internal pudendal vessels,
and pudendal nerve (entering)
Body
Contributes to the acetabulum
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Ilium
S1
Sacrum
Anterior superior
iliac spine
Anterior inferior
iliac spine
Pubis
Greater
trochanter
Neck of femur
Pubic
symphysis
Ischium
Head of femur
Lesser
trochanter
Tibial
collateral
ligament
Quadriceps
femoris tendon
Medial
epicondyle
Femur
Medial femoral
condyle
Patella
Lateral epicondyle
Fibular
collateral
ligament
Patellar
ligament
Medial
tibial
condyle
Lateral femoral
condyle
Tibial condyle
Head of fibula
Tibial tuberosity
Interosseous
membrane
Talus
Medial
cuneiform
Tibia
Fibula
Medial malleolus
Lateral malleolus
FIGURE 5-1. Lower limb bones. Anterior view. (Asset provided by
Anatomical Chart Company.)
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Additional Concept
Acetabulum
The acetabulum is formed by the bodies of the pubis,
ischium, and ilium; it forms the socket of the hip joint.
Clinical Significance
Contusion of the iliac crest is known as a “hip pointer.”
Muscles of the gluteal region
Proximal
Attachment
Ilium posterior
to posterior
gluteal line,
sacrum, coccyx;
and sacrotuberous ligament
Gluteus
Ilium between
medius
anterior and
posterior gluteal
lines
Gluteus
Ilium between
minimus anterior and
inferior gluteal
lines
Tensor of Anterior superior
fascia lata iliac spine
Muscle
Gluteus
maximus
Piriformis
Obturator
internus
Sacrum and
sacrotuberous
ligament
Margins of
obturator foramen and obturator membrane
Ischial spine
Superior
gemellus
Inferior
Ischial
gemellus tuberosity
Quadratus
femoris
Distal
Attachment Innervation
Iliotibial tract Inferior
and gluteal
gluteal
tuberosity
Greater trochanter of
femur
Lateral condyle of tibia
via iliotibial
tract
Greater
trochanter of
femur
Intertrochanteric crest
Superior
gluteal
Main Actions
• Extends and
laterally
rotates thigh
• Steadies
thigh
• Abducts and
medially
rotates thigh
• Levels pelvis
when contralateral leg is
unsupported
Sacral plexus • Laterally
(S1 and S2)
rotates thigh
• Assist in
holding head
Nerve to
of femur in
obturator
acetabulum
internus
Nerve to
quadratus
femoris
Clinical Significance
The gluteal region is a common site for intramuscular injection; injections are made in the superolateral quadrant to
avoid neurovascular elements.
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CLINICAL ANATOMY FOR YOUR POCKET
Mnemonic
Lateral Rotators of the Hip Joint
Play Golf Or Go On Quaaludes
Piriformis
Gemellus superior
Obturator internus
Gemellus inferior
Obturator externus
Quadratus femoris
Nerves of the gluteal region
Nerve
Superior gluteal
Origin
Sacral plexus
Inferior gluteal
Pudendal
Sciatic
Nerve to quadratus
femoris
Nerve to obturator
internus
Posterior femoral
cutaneous
Superior clunial
Middle clunial
Inferior clunial
Iliohypogastric
Structures Innervated
Gluteus medius, gluteus minimus,
tensor of fascia lata
Gluteus maximus
Supplies the perineum; supplies no
structures in the gluteal region
Supplies the lower limb; supplies no
structures in the gluteal region
Quadratus femoris and inferior
gemellus
Obturator internus and superior
gemellus
Skin of gluteal region
L1–L3
S1–S3
S2–S3
Lumbar plexus Skin of buttock
Vessels of the gluteal region
(Figure 5-2)
Artery
Superior
gluteal
Inferior
gluteal
Internal
pudendal
Origin
Internal
iliac
Description
Supplies gluteus maximus, gluteus medius,
gluteus minimus, and tensor of fascia lata
• Supplies gluteus maximus, obturator internus,
and quadratus femoris
• Participates in cruciate anastomosis with the
deep femoral (1st perforating branch) and the
medial and lateral circumflex arteries
• Supplies structures in the perineal region
• Supplies no structures in the gluteal region
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External iliac artery
Inferior epigastric
artery
Superficial epigastric
artery
Deep circumflex
iliac artery
Superficial circumflex
iliac artery
Deep femoral artery
Lateral circumflex
femoral artery:
Ascending branch
Transverse branch
Descending branch
Aorta
Common iliac artery
Internal iliac
artery (cut)
Superficial external
pudendal artery
Obturator artery
Anterior and
posterior branch
of obturator
artery
Medial circumflex
femoral artery
Perforating
arteries
Femoral artery
Descending
genicular artery
Superior lateral
genicular artery
Inferior lateral
genicular artery
Anterior tibial
recurrent artery
Anterior tibial artery
Perforating branch
of fibular artery
Anterior lateral
malleolar artery
Lateral tarsal artery
Arcuate artery
Dorsal digital arteries
Superior medial
genicular artery
Inferior medial
genicular artery
Posterior
tibial artery
Interosseous
membrane
Anterior medial
malleolar artery
Dorsalis pedis artery
Medial tarsal arteries
Deep plantar artery
Dorsal metatarsal
arteries
FIGURE 5-2. Arteries of lower limb, anterior view. (From Tank
PW, Gest TR. LWW Atlas of Anatomy. Baltimore: Lippincott
Williams & Wilkins; 2009:148.)
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CLINICAL ANATOMY FOR YOUR POCKET
Additional Concept
Venous Drainage
The venous drainage generally parallels arterial supply.
THIGH REGION
Bones of the thigh
(Figures 5-1 and 5-2)
Bone
Femur
(thigh
bone)
Feature
Head
Neck
Greater trochanter
Lesser trochanter
Trochanteric fossa
Intertrochanteric
line
Intertrochanteric
crest
Linea aspera
Gluteal tuberosity
Adductor tubercle
Significance
• Articulates with acetabulum
• Bears a fovea for attachment of the
ligament of the head of the femur
Attachment for the capsule of the hip joint
Attachment for gluteus medius and minimus,
piriformis, obturator internus, superior and
inferior gemelli, and vastus lateralis
Attachment for iliacus and psoas major
Attachment for obturator externus
Attachment for iliofemoral ligament and
vastus medialis
Attachment for quadratus femoris
Attachment for pectineus, iliacus, vastus
medialis and lateralis, adductor magnus,
longus and brevis, biceps femoris (short
head), and gluteus maximus
Attachment for gluteus maximus
• Associated with the medial epicondyle
• Attachment for adductor magnus
Attachment for vastus intermedius
Articulate with tibial plateau
Shaft
Medial condyle
Lateral condyle
Intercondylar fossa • Depression between medial and lateral
condyles
• Attachment for anterior and posterior
cruciate ligaments
Medial epicondyle • Attachment for tibial collateral ligament,
gastrocnemius
• Bears adductor tubercle
Lateral epicondyle Attachment for fibular collateral ligament,
gastrocnemius, plantaris, and popliteus
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Clinical Significance
Coxa Vara and Coxa Valga
When the angle of inclination between the neck and shaft of
the femur is decreased, the condition is coxa vara; when it is
increased, it is coxa valga.
Femoral Fracture
Femoral fractures often occur at the neck; spiral fractures
occur in the shaft of the femur.
Muscles of the thigh
Proximal
Distal
Muscle Attachment
Attachment Innervation Main Actions
Anterior Compartment—Hip Flexors and Knee Extensors
Pectineus Pubis
Pectineal line Femoral or
Adducts, flexes,
of femur
obturator
and medially
rotates thigh
Psoas
major
T12 and lumbar Lesser troch- Segmental
vertebrae
anter of femur (L1–L3)
Flexes thigh
and stabilizes
hip joint
Psoas
minor
T12–L1
Pectineal line Segmental
Iliacus
Iliac fossa
Lesser troch- Femoral
anter of femur
Sartorius
Anterior superior iliac spine
Medial condyle of tibia
via pes
anserinus
Rectus
femoris
Anterior inferior Tibial tuberoiliac spine
sity via patellar ligament
Extends leg,
flexes thigh,
and stabilizes
hip joint
Vastus
lateralis
Greater trochanter and
linea aspera of
femur
Extends leg
Vastus
medialis
Intertrochanteric
line and linea
aspera of femur
Flexes, abducts
and laterally
rotates thigh,
flexes leg
Vastus
Femoral shaft
intermedius
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Muscles of the thigh (continued)
Proximal
Distal
Muscle Attachment
Attachment Innervation
Medial Compartment—Thigh Adductors
Adductor Pubis
Linea aspera Obturator
longus
of femur
Main Actions
Adducts thigh
Adductor
brevis
Adductor
magnus
• Adductor
• Adductor
• Adductor
portion: pubis
portion: glu- portion:
• Hamstring
teal tubero- obturator
portion: ischial sity and
• Hamstring
tuberosity
linea aspera portion:
• Hamstring
tibial diviportion:
sion of
adductor
sciatic
tubercle of
femur
• Adductor
portion:
adducts thigh
• Hamstring
portion:
extends thigh
Gracilis
Pubis
Adducts thigh,
flexes and
medially
rotates leg
Medial condyle of tibia
via pes
anserinus
Obturator
Obturator
externus
Margins of obtu- Trochanteric
• Laterally
rator foramen
fossa of
rotates thigh
and obturator
femur
• Holds head of
membrane—
femur in
externally
acetabulum
Posterior Compartment—Knee Flexors and Hip Extensors
Semitendinosus
Semimembranosus
Biceps
femoris
Ischial
tuberosity
Medial condyle of tibia
via pes anserinus
Tibial division Extend thigh,
of sciatic
flex and
medially rotate
leg
Medial condyle of
tibia
• Long head:
Head of fibula • Long head: Flexes and
ischial tuberotibial divi- laterally rotates
sity
sion of
leg, flexes thigh
• Short head:
sciatic
linea aspera
• Short head:
common
fibular division of
sciatic
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Additional Concept
Quadriceps Femoris
The rectus femoris, vastus lateralis, vastus medialis, and vastus intermedius are collectively referred to as the quadriceps femoris.
Hamstrings
The semitendinosus, semimembranosus, and biceps femoris
are collectively referred to as the hamstrings.
Clinical Significance
Cramp
A cramp or spasm in the anterior thigh muscles—a “Charley
Horse”—usually involves the rectus femoris.
Gracilis
Gracilis is sometimes transplanted to replace damaged muscles elsewhere in the body.
Groin pull
A groin pull usually refers to straining the proximal aspect
of the musculature of the medial compartment of the thigh.
Mnemonics
Adductor Magnus
AM SO: Adductor Magnus innervated by Sciatic and
Obturator.
Pes Anserinus
Pes Anserinus—Say Grace before Serving Tea
Sartorius
Gracilis
Semitendinosus
Nerves of the thigh
Nerve
Femoral
Obturator
Origin
Structures Innervated
Lumbar plexus • Pectineus, sartorius, iliacus, rectus
femoris, vastus lateralis, medialis,
and intermedius
• Sensory to skin over anteromedial thigh
Adductor longus, adductor brevis,
gracilis, pectineus, obturator externus,
and adductor magnus
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Nerves of the thigh (continued)
Nerve
Origin
Structures Innervated
Tibial division of
sciatic
Sciatic
Long head of biceps femoris,
semitendinosus, semimembranosus
Common fibular
division of sciatic
Genitofemoral
Short head of biceps femoris
Lumbar plexus Sensory to skin of inguinal region
Lateral femoral
cutaneous
Posterior femoral
cutaneous
Sensory to skin over lateral thigh
Sacral plexus
Sensory to skin of gluteal region and
posterior thigh
Vessels of the thigh
(Figure 5-2)
Artery
Origin
Description
Internal
pudendal
Internal
iliac
Supplies external genitals and perineal region
Obturator
• Divides into anterior and posterior branches
• The posterior branch gives rise to the
acetabular branch and the artery to the head of
the femur
• Both branches supply the adductor compartment
of the thigh
Femoral
Continuation of external iliac
• Gives rise to deep femoral, superficial epigastric,
superficial circumflex iliac, external pudendal,
medial and lateral femoral circumflex, and
descending genicular
• Terminates by becoming the popliteal artery
after passing through the adductor hiatus
Deep
femoral
Femoral
• Gives rise to 4 perforating branches that supply
adductor magnus and hamstrings
• 1st perforating branch participates in cruciate
anastomosis with the inferior gluteal and the
medial and lateral circumflex arteries
Superficial
epigastric
Supplies subcutaneous tissues—lymph nodes,
skin, and fascia over the abdominal wall
Superficial
circumflex
iliac
Supplies subcutaneous tissues—lymph nodes,
skin, and fascia over the inguinal region
(continued)
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Vessels of the thigh (continued)
Artery
Origin
Superficial
external
pudendal
Deep
external
pudendal
Medial
femoral
circumflex
Description
Supplies subcutaneous tissues—skin and fascia
over the external genitals
Deep
femoral
• Supplies most of the blood to the head and
neck of femur
• Participates in cruciate anastomosis with the
inferior gluteal, lateral circumflex, and 1st perforating branch of the deep femoral
Lateral
femoral
circumflex
• Supplies neck of femur and contributes to
anastomosis around knee joint
• Participates in cruciate anastomosis with the
inferior gluteal, medial circumflex, and 1st perforating branch of the deep femoral
Descending Femoral
genicular
Supplies subcutaneous tissue on medial aspect
of knee and contributes to anastomosis around
knee
Additional Concept
Venous Drainage
Venous drainage generally follows arterial supply.
Clinical Significance
Femoral Artery
The proximal portion of the femoral artery is easily
accessible and easily damaged because of its superficial
location.
LEG REGION
Leg bones
(Figures 5-1, 5-4, and 5-5)
Bone
Tibia
Feature
Medial condyle
Significance
• Articulates with femoral condyles
• Attachment for semimembranosus and
tibial collateral ligament
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Leg bones (continued)
Bone
Fibula
Feature
Significance
Lateral condyle
• Articulates with femoral condyles
• Attachment for iliotibial band
Anterior intercondylar area
Posterior intercondylar area
• Located between the condyles
• Provide attachment sites for anterior and
posterior cruciate ligaments and the menisci
Tuberosity of the
tibia
Attachment for patellar ligament
Shaft
Attachment for tibial collateral ligament,
popliteus, soleus, flexor digitorum longus,
interosseous membrane, gracilis, and
semitendinosus
Soleal line
Attachment for popliteus, soleus, flexor
digitorum longus, and tibialis posterior
Medial malleolus
• Attachment for deltoid ligament
• Lateral surface articulates with the
talus
Head
Attachment for biceps femoris, fibular
collateral ligament, fibularis longus, extensor
digitorum longus, and soleus
Neck
Common fibular nerve wraps around neck to
access the anterior aspect of the leg
Shaft
Attachment for interosseous membrane,
extensor digitorum longus, extensor hallucis
longus, soleus, tibialis posterior, fibularis
longus, brevis, and tertius
Lateral malleolus
• Medial surface articulates with the talus
• Attachment for the posterior and anterior
talofibular ligaments and the calcaneofibular ligament
Clinical Significance
Fractures
Tibia
The most common site for a fracture of the tibia is along
the shaft at the junction of its middle and inferior thirds;
it is the narrowest part and has a relatively poor blood
supply.
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Fibula
Fracture of the fibula often occurs proximal to the lateral
malleolus and is often associated with fracture dislocations
of the ankle joint.
Muscles of the leg
Proximal
Muscle Attachment
Anterior Compartment
Distal
Attachment
Tibialis
anterior
1st metatarsal Deep fibular
Dorsiflexes
ankle, inverts
foot
Middle and
distal phalanges digits 2–5
Extends digits
2–5, dorsiflexes
ankle
Tibia and interosseous membrane
Extensor
digitorum
longus
Extensor
hallucis
longus
Innervation
Fibula and inter- Distal
osseous mem- phalanx
brane
digit 1
Fibularis
tertius
Main Actions
Extends digit 1,
dorsiflexes
ankle
5th metatarsal
Dorsiflexes
ankle, everts
foot
Fibularis Fibula
longus
Fibularis
brevis
Posterior Compartment
1st metatarsal Superficial
fibular
Tuberosity of
5th metatarsal
Plantarflex
ankle, evert
foot
Gastrocnemius
Femoral
condyles
Calcaneus via Tibial
calcaneal
tendon
Flexes leg,
plantarflexes
ankle
Soleus
Soleal line of
tibia and fibula
Plantarflexes
ankle
Plantaris
Oblique
popliteal ligament and lateral
supracondylar
ridge of femur
Plantarflexes
ankle and
provides proprioceptive information on tension
of triceps surae
Popliteus
Lateral femoral Tibia
condyle and lateral meniscus
Flexes and
unlocks knee
Lateral Compartment
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Muscles of the leg (continued)
Muscle
Tibialis
posterior
Proximal
Attachment
Fibula and
interosseous
membrane
Flexor
hallucis
longus
Flexor
digitorum
longus
Distal
Attachment
Tuberosity of
navicular
Distal phalanx
digit 1
Tibia and fibula
Distal phalanges digits
2–5
Innervation
Main Actions
Plantarflexes
ankle, inverts
foot
Flexes joints
of 1st digit,
plantarflexes
ankle, and
supports
longitudinal
arches of foot
Plantarflexes
ankle, flexes
digits 2–5, and
supports longitudinal arches
of foot
Additional Concept
Triceps Surae
The gastrocnemius, soleus, and plantaris are collectively
referred to as the triceps surae.
Clinical Significance
Compartment Syndrome
Compartment syndrome is increased intracompartment
pressure due to muscle swelling or shin splints. Shin splints
is pain resulting from repetitive microtrauma to the tibialis
anterior.
Gastrocnemius
Gastrocnemius strain is a painful injury resulting from tearing the medial belly of the muscle during knee extension and
dorsiflexion of the ankle.
Mnemonics
Eversion versus Inversion
The second letter in the name of the muscle indicates the
function:
Eversion:
perineus longus
perineus brevis
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perineus tertius
Inversion:
tibialis anterior
tibialis posterior
Plantarflexion
Plantarflexion occurs when you step on a plant with the
sole of your foot.
Nerves of the leg
Nerve
Tibial
Origin
Sciatic
Common fibular
Superficial fibular
Common
fibular
Deep fibular
Posterior femoral
cutaneous
Saphenous
Lateral sural
cutaneous
Medial sural
cutaneous
Superficial fibular
Sural
Sacral plexus
Structures Innervated
Supplies gastrocnemius, soleus, plantaris,
popliteus, flexor hallucis longus, flexor
digitorum longus, and tibialis posterior
Gives rise to the lateral sural cutaneous
and superficial and deep fibular
Supplies fibularis longus and brevis and
sensory to anterior aspect of distal leg
Supplies tibialis anterior, extensor
hallucis longus, extensor digitorum
longus, and fibularis tertius
Sensory to skin of calf
Femoral
• Sensory to medial aspect of leg
• Runs with great saphenous vein
Common fibular Sensory to posterolateral aspect of leg
Tibial
Sensory to posterior aspect of leg
Common fibular Sensory to anterolateral aspect of leg
Common fibular Sensory to lateral and posterior aspect
and tibial
of leg
Vessels of the leg
(Figure 5-2)
Artery
Popliteal
Origin
Femoral
Genicular
Popliteal
Description
• Begins at the adductor hiatus as a continuation
of the femoral
• Gives rise to genicular, anterior, and posterior
tibial arteries
• Composed of superior lateral and medial,
inferior lateral, and medial genicular
• Contribute the anastomosis around the knee joint
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Vessels of the leg (continued)
Artery
Anterior
tibial
Origin
Posterior
tibial
Fibular
Posterior
tibial
Supplies/Gives Rise to
• Runs with deep fibular nerve on interosseous
membrane
• Supplies anterior leg and dorsum of foot,
terminates as the dorsalis pedis
• Gives off fibular artery
• Supplies posterior aspect of leg and sole of
foot, terminates as medial and lateral plantar
arteries
Supplies posterolateral aspects of leg
Additional Concept
Venous Drainage
Venous drainage generally parallels arterial supply.
Clinical Significance
Posterior Tibial Artery
The posterior tibial arterial pulse can be palpated between
the medial malleolus and the calcaneal tendon.
FOOT REGION
Bones of the foot
(Figures 5-1 and 5-4)
Bone
Talus
Characteristic
Trochlea
Head
Calcaneus
Calcaneal
tuberosity
Fibular trochlea
Significance
Articulates with tibia and malleoli of tibia
and fibula
Articulates with the navicular, forming a
ball-and-socket type joint, supported
inferiorly by the plantar calcaneonavicular
ligament
Attachment for abductor digiti minimi,
abductor hallucis, flexor digitorum brevis,
plantar aponeurosis, long plantar ligament,
quadratus plantae, and the plantar calcaneocuboid ligament
Separates grooves for the tendons of
fibularis longus and brevis
(continued)
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Bones of the foot (continued)
Bone
Characteristic
Talar shelf
Navicular Tuberosity
Cuboid
Medial
Articular surfaces
cuneiform
Intermediate
cuneiform
Lateral
cuneiform
Metatar- Base
sals (5)
Proximal Heads
phalanges (5)
Middle
phalanges (5)
Distal
Tuberosity
phalanges (4)
Significance
Attachment for tibialis posterior, deltoid
ligament, and plantar calcaneonavicular
ligament; inferior surface grooved for tendon
of flexor hallucis longus
Attachment for tibialis posterior
Bears facet for sesamoid bone in tendon of
fibularis longus to glide
Articulates with 4 bones—navicular,
intermediate cuneiform, and 1st and 2nd
metatarsals
Articulates with 4 bones—navicular, medial
and lateral cuneiforms, and 2nd metatarsal
Articulates with 6 bones—navicular, intermediate cuneiform, cuboid, and 2nd, 3rd, 4th
metatarsals
Articulate with tarsal bones and adjacent
metatarsals
Articulate with proximal phalanges
Articulate with more distal phalanges
Ungual tuberosity supports the toenail
Clinical Significance
Avulsion
Sudden inversion of the foot may cause avulsion of the tuberosity of the 5th metatarsal,, the attachment for fibularis brevis.
Muscles of the foot
Muscle
Dorsum
Extensor
digitorum
brevis
Proximal
Attachment
Distal
Attachment
Calcaneus
Tendons of ex- Deep fibular
tensor digitorum longus
Innervation
Main Actions
Extend digits
2–5
(continued)
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Muscles of the foot (continued)
Proximal
Distal
Muscle Attachment
Attachment Innervation
Extensor
Proximal
hallucis
phalanx of
brevis
digit 1
Plantar Surface—Layer 1 (Most Superficial)
Abductor Calcaneus
Proximal pha- Medial
hallucis
lanx of digit 1 plantar
Flexor
Middle phadigitorum
langes of
brevis
digits 2–5
Abductor
Proximal pha- Lateral plantar
digiti
lanx of digit 5
minimi
Plantar Surface—Layer 2
Quadratus Calcaneus
Tendons of
Lateral plantar
plantae
flexor digitorum longus
Lumbricals Tendons of
Extensor
• 1st: medial
flexor digitorum expansions
plantar
longus
• 2nd–4th:
lateral
plantar
Plantar Surface—Layer 3
Flexor
Cuboid and 3rd Proximal
Medial
hallucis
cuneiform
phalanx of
plantar
brevis
digit 1
Adductor • Oblique head:
Lateral plantar
hallucis
metatarsals
2–4
• Traverse head:
metatarsophalangeal joints
Flexor digiti 5th metatarsal Proximal phaminimi
lanx of digit 5
brevis
Plantar Surface—Layer 4
Plantar in- Metatarsals 3–5 Proximal pha- Lateral plantar
terossei (3)
langes 3–5
Dorsal in- Metatarsals 1–5 Proximal phaterossei (4)
langes 2–4
144
Main Actions
Extend digit 1
Abducts digit 1
Flexes middle
phalanges of
digits 2–5
Abducts digit 5
Assists with toe
flexion
Flex metatarsophalangeal
joints, extend
interphalangeal
joints
Flexes digit 1
• Adducts
digit 1
• Maintains
transverse
arch of foot
Flexes digit 5
• Adducts
digits 2–4
• Flex metatarsophalangeal
joints
• Abducts
digits 2–4
• Flex metatarsophalangeal
joints
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Clinical Significance
Extensor Digitorum Brevis
A hematoma resulting from trauma to the extensor digitorum brevis produces edema near the ankle that is often
confused with an ankle sprain.
Nerves of the foot
Nerve
Saphenous
Origin
Femoral
Medial sural
cutaneous
Superficial fibular
Deep fibular
Calcaneal(s)
Medial plantar
Lateral plantar
Sural
Structures Innervated
• Runs with great saphenous vein
• Sensory to medial aspect of foot
Tibial
Sensory to lateral aspect of ankle and
foot
Common fibular Sensory to dorsum of foot
• Supplies extensor digitorum brevis
• Sensory to skin between the 1st and
2nd toes
Tibial and sural Sensory to heel
Tibial
• Supplies abductor hallucis, flexor
digitorum brevis, flexor hallucis brevis
and 1st lumbrical
• Sensory to medial aspect of sole and
medial 31⁄2 toes
• Supplies quadratus planate, abductor
digiti minimi, flexor digiti minimi brevis,
plantar and dorsal interossei, lateral
3 lumbricals, and adductor hallucis
• Sensory to lateral aspect of sole and
lateral 11⁄2 toes
Tibial and
Sensory to lateral aspect of foot
common fibular
Vessels of the foot
(Figure 5-2)
Artery
Origin
Dorsal Surface
Dorsalis
Anterior
pedis
tibial
Lateral
tarsal
Arcuate
Dorsalis
pedis
Description
• Continuation of the anterior tibial after it passes
into the foot
• Gives rise to the lateral tarsal, arcuate, 1st
dorsal metatarsal, and deep plantar
Anastomosis with arcuate
Gives the 2nd, 3rd, and 4th dorsal metatarsals
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Vessels of the foot (continued)
Artery
Origin
Dorsal
Arcuate
metatarsals
Dorsal
Dorsal
digitals
metatarsals
1st dorsal Dorsalis
metatarsal pedis
Deep
plantar
Plantar Surface
Medial
Posterior
plantar
tibial
Lateral
plantar
Plantar
Plantar
metatarsals arch
Plantar
Plantar
digitals
metatarsals
Plantar arch Lateral
plantar
Description
Give off 2 dorsal digitals
Supplies the digits
Supplies the 1st digit
Anastomosis with lateral plantar to form plantar
arch
Divides into superficial and deep branches that
supply the digits
Forms plantar arch with deep plantar
Give rise to plantar digitals
Supply the digits
Gives rise to plantar metatarsals
Additional Concept
Venous Drainage
Venous drainage generally parallels arterial supply.
MISCELLANEOUS
Areas of lower limb
(Figure 5-3)
Feature
Femoral
triangle
Structure
Triangular region in anterosuperior aspect of thigh, deep to
fascia lata:
• Superior border (base): inguinal
ligament
• Medial border: adductor longus
• Lateral border: sartorius
• Roof: fascia lata—deficiency:
cribriform fascia and saphenous
opening, pierced by great
saphenous vein
• Floor: iliopsoas (laterally) and
pectineus (medially)
Significance
Location of neurovascular
structures entering and leaving
thigh through subinguinal space,
from lateral to medial:
• Femoral nerve
• Femoral sheath—contains:
• Femoral artery
• Femoral vein
• Femoral canal (fat and
deep inguinal lymph nodes)
(continued)
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Areas of lower limb (continued)
Feature
Structure
Significance
Adductor • Intermuscular passage found
canal
deep to sartorius
• Proximal opening—apex of
femoral triangle, distal
opening—adductor hiatus
• Also known as subsartorial
canal
• Transmits femoral artery,
femoral vein, and saphenous
nerve
Popliteal Fat-filled, diamond-shaped space
fossa
posterior to knee joint; boundaries:
• Superolateral: biceps femoris
• Superomedial: semimembranosus
• Inferolateral: gastrocnemius
• Inferomedial: gastrocnemius
• Roof: popliteal fascia
• Floor: popliteus
Contains:
• Popliteal artery
• Popliteal vein—receives
small saphenous vein in fossa
• Tibial nerve
• Common fibular nerve
• Popliteal lymph nodes
Arches of 3 arches formed by bones,
the foot muscles, tendons, ligaments,
and fascia
1. Medial longitudinal arch
2. Lateral longitudinal arch
3. Transverse arch
• Act as shock absorbers and
springboards during locomotion and bear weight of
body
• Maintained by passive and
dynamic support:
• Passive—bones, connective
tissue structures (plantar
aponeurosis and long, short
and spring ligaments)
• Dynamic—intrinsic muscles
of foot and tendons of
leg muscles passing into
foot
Mnemonics
Borders of Popliteal Fossa
The two “semi” muscles go together—semimembranosus
and semitendinosus.
Semi contains an “M”; therefore, they are medial, leaving biceps femoris as the lateral border.
Borders of Femoral Triangle
So I May Always Love Sally:
Superior: Inguinal ligament
Medial: Adductor longus
Lateral: Sartorius
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Psoas major
muscle (cut)
Iliacus muscle
Femoral nerve
Anterior superior
iliac spine
Inguinal ligament
Lateral femoral
cutaneous nerve
Iliopsoas muscle
Common iliac artery
and vein (cut)
External iliac artery
and vein (cut)
Internal iliac artery
and vein (cut)
Femoral sheath
Great saphenous
vein (cut)
Femoral artery
and vein
Pectineus muscle
Sartorius muscle
Fascia lata (cut)
Femoral triangle
(outlined)
Adductor longus
muscle
FIGURE 5-3. Femoral triangle, anterior view. (From Tank PW,
Gest TR. LWW Atlas of Anatomy. Baltimore: Lippincott Williams &
Wilkins; 2009:104.)
Contents of Femoral Triangle
NAVEL
femoral Nerve
femoral Artery
femoral Vein
Empty space, containing
Lymphatics
Clinical Significance
Femoral Ring
The “empty space” of the mnemonic is the femoral canal;
the proximal opening of the femoral canal is the femoral
ring, a common site for a femoral hernia.
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Superficial structures of the lower limb
Structure
Course/Significance
Vessel
Great saphenous • Origin: dorsal digital vein of 1st digit and the dorsal
vein
venous arch
• Runs anterior to medial malleolus, posterior to medial
femoral condyle
• Passes through saphenous opening to enter femoral vein
Small saphenous • Origin: dorsal digital vein of 5th digit and the dorsal
vein
venous arch
• Runs posterior to lateral malleolus superiorly along
posterior aspect of the leg
• Pierces the deep fascia to enter the popliteal vein in the
popliteal fossa
Dorsal venous
Highly variable superficial venous network on dorsum of
arch
foot
Perforating veins Drain venous blood from superficial veins to deep veins
Lymphatics of
Superficial lymphatic vessels accompany veins to enter
lower limb
superficial lymph nodes, including popliteal, inguinal, and
external iliac groups
Cutaneous Nerve
Subcostal
• Origin: T12
• Lateral cutaneous branch is sensory to skin of hip
Genitofemoral • Origin: lumbar plexus
• Sensory to skin of femoral triangle
Iliohypogastric • Origin: lumbar plexus
• Lateral cutaneous branch is sensory to skin of superolateral gluteal region
Ilioinguinal
• Origin: lumbar plexus
• Femoral branch is sensory to skin of femoral triangle
Lateral cutan• Origin: lumbar plexus
eous nerve of
• Sensory to skin of lateral and anterior thigh
thigh
Obturator
Cutaneous branch sensory to skin of medial aspect of thigh
Femoral
Cutaneous branch sensory to skin of anterior and medial
thigh
Saphenous
• Origin: femoral
• Sensory to skin of medial aspect of leg
• Runs with great saphenous vein
Lateral sural
• Origin: common fibular
cutaneous
• Sensory to skin of posterolateral leg
Medial sural
• Origin: tibial
cutaneous
• Sensory to skin of posterior leg and lateral ankle and foot
Sural
• Origin: tibial and common fibular
• Sensory to skin of posterolateral leg
(continued)
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Superficial structures of the lower limb (continued)
Structure
Superficial
fibular
Course/Significance
• Origin: common fibular
• Sensory to skin of anterolateral leg and dorsal aspect
of foot
Deep fibular
• Origin: common fibular
• Sensory to skin between the 1st and 2nd digit on the
dorsum of the foot
Clunials
• Superior, middle, and inferior
• Origin: lumbar and sacral plexuses and branches of the
posterior cutaneous nerve of the thigh
• Sensory to skin of gluteal region
Posterior
• Origin: sacral plexus
cutaneous nerve • Sensory to skin of posterior aspect of thigh
of thigh
Lateral plantar • Origin: tibial
• Sensory to skin of lateral aspect of sole of foot
Medial plantar • Origin: tibial
• Sensory to skin of medial aspect of sole of foot
Tibial
Calcaneal branches are sensory to skin over calcaneus
Clinical Significance
Nerve Block
The ilioinguinal and iliohypogastric nerves can be blocked
by injecting anesthetic near the anterior superior iliac spine;
the femoral can be blocked near the midpoint of the inguinal
ligament.
Great Saphenous Vein
The great saphenous vein and its tributaries may become
varicose, mainly from incompetent valves. During saphenous cutdown, an incision is made anterior to the medial
malleolus to locate the great saphenous vein for infusion of
therapeutic agents.
Fascia of lower limb
Fascia/
Connective Tissue
Fascia lata
Iliotibial tract
Significance/Structure
Deep fascia of the thigh
• Thickening of fascia lata over lateral aspect of thigh
• Extends from iliac tubercle to lateral condyle of tibia
• Attachment for tensor fascia lata and gluteus maximus
(continued)
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Fascia of lower limb (continued)
Fascia/
Connective Tissue
Significance/Structure
Saphenous opening
• Hiatus in the fascia lata inferior to the medial aspect
of inguinal ligament
• Falciform margin (lateral and inferior) is sharp
• Covered by cribriform fascia
• Great saphenous vein passes through to enter
femoral vein
Falciform margin
Sharp inferior and lateral borders of saphenous
opening
Cribriform fascia
Membranous layer of subcutaneous tissue that covers
the saphenous opening
Crural fascia
Deep fascia of the leg
Extensor retinacula
Thickened crural fascia over distal leg
Femoral sheath
• Extension of transversalis fascia through subinguinal
space into the femoral triangle
• Divided into 3 compartments that transmit femoral
artery, vein, and femoral canal between the
abdominopelvic cavity and femoral triangle of the
thigh
Femoral canal
• Medial-most of the 3 compartments of the femoral
sheath
• Contains fat and lymphatics
• Allows for expansion of femoral vein during
increased venous return
Popliteal fascia
Deep fascia forming roof of popliteal fossa
Plantar fascia
• Deep fascia of sole of foot
• Thickened central aspect forms plantar aponeurosis
• Protects sole of foot and supports arches
Plantar aponeurosis
• Thickened central region of plantar fascia
• Reinforced distally by superficial transverse
metatarsal ligament
• Vertical septa extend superiorly from aponeurosis to
divide foot into 3 compartments:
1. Medial
2. Central
3. Lateral
Additional Concept
Fourth Compartment
Distally, a fourth compartment—the interosseous compartment of the foot exists.
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Clinical Significance
Compartment Syndrome
Increased pressure in the fascial compartments of the lower
limb produces compartment syndromes, causing pain and
tissue damage.
Plantar Fasciitis
Inflammation of the plantar aponeurosis—plantar fasciitis,
results from high-impact exercise and causes pain over the
heel and medial aspects of the foot.
Lumbosacral plexus
Nerve
Roots
Divisions
Significance/Structure
L1–S4 spinal nerves’ anterior rami form plexus
Rami terminate by dividing into an anterior and
posterior divisions
Branches (6):
1. Femoral nerve (L2–L4)
1. Femoral nerve
2. Obturator nerve (L2–L4)
2. Obturator nerve
3. Common fibular nerve (L4–S2; terminates by
3. Common fibular nerve
dividing into superficial and deep fibular nerves)
4. Tibial nerve
4. Tibial nerve (L4–S3)
5. Superior gluteal nerve
• 1–4 above innervate the lower limb
6. Inferior gluteal nerve 5. Superior gluteal nerve (L4–S1)
6. Inferior gluteal nerve (L5–S2)
• 5–6 above innervate the gluteal region
• The common fibular and tibial nerves comprise
the sciatic nerve
Clinical Significance
Femoral Nerve
Injury to the femoral nerve results in the loss of leg extension and therefore loss of the knee jerk reflex.
Common Fibular Nerve
Loss of dorsiflexion and eversion of the foot as a result of
common fibular nerve damage leads to foot drop and foot
slap.
Superior Gluteal Nerve
Injury to the superior gluteal nerve results in paralysis of
gluteus medius and minimus, resulting in the inability to
steady the pelvis during walking, leading to a positive
Trendelenburg sign and a waddling gait.
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Inferior Gluteal Nerve
Paralysis of the gluteus maximus, as occurs with injury to
the inferior gluteal nerve results in weakness when extending the thigh/hip, leading to difficulty rising from a seated
position and climbing stairs.
Joints of lower limb
(Figure 5-5)
Joint
Hip
Femorotibial (knee)
Type
Synovial
Articulation Structure
Head of
• Iliofemoral
femur with
(anterior),
acetabulum
pubofemoral
(inferior),
and ischiofemoral
(posterior)
ligaments
support joint
• Acetabular
labrum and
transverse
acetabular
ligament
deepen
socket
• Ligamentum
teres carries
the artery to
the head of
the femur
Medial and
• 5 extracaplateral femoral sular ligacondyles with
ments:
medial and
1. Patellar
lateral condy- 2. Fibular
les of tibia
collateral
3. Tibial
collateral
4. Oblique
popliteal
5. Arcuate
popliteal
• 4 intraarticular
ligaments/
structures:
1. Anterior
cruciate
Movements
Flexion,
extension,
abduction,
adduction,
medial rotation,
lateral rotation,
and circumduction
Flexion,
extension,
medial
rotation, and
lateral rotation
(continued)
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Joints of lower limb (continued)
Joint
Type
Superior • Superior:
tibiofibular synovial
and tibio- • Inferior:
fibular syn- fibrous
desmosis
(inferior)
Talocrural Synovial
(ankle)
Articulation Structure
2. Posterior
cruciate
3. Medial
menisci
4. Lateral
menisci
• Popliteus
tendon
strengthens
the joint
• Superior:
• Superior:
head of
anterior and
fibula with
posterior
tibial
ligaments of
condyle
the head of
• Inferior:
the fibula
fibula with
strengthen
tibia
joint capsule
• Inferior:
interosseous
membrane
and anterior
and posterior
tibiofibular
and inferior
transverse
tibiofibular
ligament
strengthen
joint
Medial malle- • Lateral
olus and distal ligament:
end of tibia
calcaneoand lateral
fibular, anmalleolus of
terior, and
fibula with
posterior
the trochlea
talofibular
of the talus
• Medial
(deltoid)
ligament:
anterior and
posterior
tibiotalar,
tibionavicular, and tibiocalcaneal
strengthen
and stabilize
joint
Movements
Small amount
of movement
during
dorsiflexion
Dorsiflexion,
plantarflexion
(continued)
154
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Joints of lower limb (continued)
Joint
Type
Articulation Structure
Movements
Talocalcaneal
(subtalar)
Inferior
surface of
talus with
superior
surface of
calcaneus
• Interosseous Inversion,
talocalca- eversion
neal ligament binds
bodies of
calcaneus
and talus
• Medial,
lateral, and
posterior
talocalcaneal ligament supports joint
Intertarsal
(talocalcaneonavicular,
calcaneocuboid,
cuneonavicular)
Between adjacent tarsal
bones
Ligaments,
Mainly gliding
named for the movements
bones they
connect,
support joint
Tarsometatarsal
Distal tarsal
bones with
proximal end
of metatarsals
Interosseous Gliding
tarsometarsal,
dorsal, and
plantar ligaments strengthen joint
Metatarsophalangeal
Head of metatarsals with
proximal
phalanges
Plantar and
collateral
ligaments
support joint
Flexion,
extension,
abduction,
adduction, and
circumduction
Interphalangeal
Heads of
proximal
phalanges
articulate with
more distal
phalanges
Plantar and
collateral
ligaments
support joint
Flexion,
extension
Additional Concept
The inferior tibiofibular joint is the inferiormost part of the
tibiofibular syndesmosis.
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CLINICAL ANATOMY FOR YOUR POCKET
Peroneus
brevis
muscle and
tendon
Fractured
fibula
Tor n
anterior
talofibular
ligament
Avulsion
of fifth
metatarsal
Fibula
Medial
malleolus
Inversion of foot
Cuboid
Tal us
Tuberosity of
5th metatarsal
FIGURE 5-4. Inversion injury. Inversion injuries are more common owing to the strength of the deltoid ligament (medial collateral) on the medial side of the ankle; they are most likely to occur
during dorsiflexion, when the ankle is most unstable. (From Dudek
RW, Louis TM. High-Yield Gross Anatomy. 3rd ed. Baltimore:
Lippincott Williams & Wilkins; 2008:256.)
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Femur
Posterior
cruciate
ligament
Anterior
cruciate
ligament
Medial
meniscus
Lateral
meniscus
Tibia
FIGURE 5-5. Knee magnetic resonance image (coronal section
through the intercondylar notch). (From Dudek RW, Louis TM.
High-Yield Gross Anatomy. 3rd ed. Baltimore: Lippincott Williams &
Wilkins; 2008:253.)
Clinical Significance
Hip Dislocation
Congenital dislocation of the hip joint is common, particularly in girls.
Knee Injuries
Anterior cruciate ligament rupture allows the tibia to slide
anteriorly relative to the femur—anterior drawer sign; posterior cruciate ligament rupture allows the tibia to slide posteriorly relative to the femur—posterior drawer sign.
Mnemonic
Structures Posterior to Medial Malleolus
From anterior to posterior—Tom, Dick And Very Nervous
Harry
Tibialis posterior
extensor Digitorum longus
posterior tibial Artery
posterior tibial Vein
tibial Nerve
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Upper Limb
INTRODUCTION
The upper limb is divided for descriptive purposes by skeletal elements into:
■
■
■
■
shoulder—portion between the arm and the thorax that
includes the pectoral girdle: scapula and clavicle
arm—portion between the shoulder and elbow that
includes the humerus
forearm—portion between the elbow and wrist that
includes the radius and ulna
hand—portion distal to the wrist that includes the
metacarpals and phalanges, the carpal bones form the wrist
SHOULDER REGION
Bones of the shoulder
(Figure 6-1)
Bone
Clavicle
Feature
Shaft
Acromial end
Sternal end
Scapula
Spine
Significance
• S-shaped, serves as strut to suspend limb
away from body
• Protects neurovascular bundle serving
upper limb
• Attachment for pectoralis major—
clavicular head, sternocleidomastoid—
clavicular head, trapezius, subclavius, and
deltoid
Articulates with the acromion of the
scapula at acromioclavicular joint
Articulates with the manubrium of the
sternum at sternoclavicular joint
• Divides posterior aspect of scapula into
supra- and infraspinous fossae
• Attachment for trapezius and deltoid
(continued)
158
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Bones of the shoulder (continued)
Bone
Feature
Supraspinous
fossa
Infraspinous
fossa
Subscapular
fossa
Acromion
Glenoid fossa
Supraglenoid
tubercle
Infraglenoid
tubercle
Coracoid process
Suprascapular
notch
Inferior angle
Medial border
Superior
angle
Lateral
border
Significance
Attachment for supraspinatus
Attachment for infraspinatus
Attachment for subscapularis
• Expanded, lateral end of spine, forms
“point” of the shoulder
• Articulates with acromial end of
clavicle
• Attachment for trapezius and deltoid
• Articulates with head of humerus at
glenohumeral joint
• Deepened by glenoid labrum
Attachment for long head of biceps brachii
Attachment for long head of triceps brachii
• Attachment for biceps brachii (short
head), coracobrachialis, and pectoralis
minor muscles
• Attachment for coracoclavicular and
coracoacromial ligaments and the
costocoracoid membrane
• Transmits the suprascapular nerve
• Bridged by the superior transverse
scapular ligament
• The omohyoid attaches medial to the
notch
Attachment for teres major and serratus
anterior
Attachment for levator scapulae,
rhomboids (major and minor) and serratus
anterior
Attachment for levator scapulae
Attachment for teres minor
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CLINICAL ANATOMY FOR YOUR POCKET
Bones of
pectoral
girdle
Clavicle
Scapula
Coracoid process
Superior
angle
Acromion
Lesser tubercle
Sternal
end
Greater tubercle
Medial
border
Inferior
angle
Humerus
Deltoid tuberosity
Lateral border
Shaft (body)
Anatomical
neck of humerus
Lateral epicondyle
Capitulum
Medial
epicondyle
Head
Trochlea
Tuberosity
Coronoid process
Shaft (body)
Radius
Shaft (body)
Styloid
process
Proximal
phalanx
Distal
phalanx
Ulna
Head
Styloid process
Carpal bones
Metacarpal bones
(1st) Proximal
(2nd) Middle
(3rd) Distal
Phalanges
FIGURE 6-1. All bones, upper limb, anterior view.The right superior
appendicular skeleton includes the right half of the pectoral (shoulder)
girdle, composed of the right clavicle and scapula, and the skeleton of
the free right upper limb, formed by the remaining bones distal to the
scapula. (From Moore KL, Dalley AF. Clinically Oriented Anatomy. 5th
ed. Baltimore: Lippincott Williams & Wilkins; 2006:728.)
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Dorsal scapular atery
Subclavian artery
161
Thyrocervical trunk
Axiallary artery
Thoracoacromial artery
Circumflex
humeral arteries:
Posterior
Anterior
Subscapular artery
Superior thoracic artery
Lateral thoracic atery
Deep brachial artery
Thoracodorsal artery
Brachial artery
Posterior
interosseous
artery
Radial
artery
Common interosseous artery
Anterior interosseous artery
Ulnar artery
Deep palmar arch
Superficial palmar arch
FIGURE 6-2. Arteries of upper limb, anterior view. (From Tank
PW, Gest TR. LWW Atlas of Anatomy. Baltimore: Lippincott
Williams & Wilkins; 2009:75.)
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Coracoid
process
Superior border Superior angle
Site of acromioclavicular
Spine of
of scapula
joint
scapula Clavicle of scapula
Acromion
Tubercle
of 1st rib
Shoulder
joint
Greater
tubercle
Vertebral
border of
scapula
Deltoid
muscle
Surgical neck
of humerus
Infraglenoid
tubercle
Axillary fat
Lateral border
of scapula
Anteroposterior View
FIGURE 6-3. Shoulder bone radiograph. (From Dudek RW, Louis
TM. High-Yield Gross Anatomy. 3rd ed. Baltimore: Lippincott
Williams & Wilkins; 2008:230.)
Clinical Significance
Fractures
The clavicle, the first bone to begin ossification, is one of
the most commonly fractured bones. Fracture is usually evident by the palpable elevation of the medial portion from
action of the sternocleidomastoid and drooping of the
shoulder from the unsupported weight of the upper limb.
Muscles of the shoulder
Muscle
Pectoralis
major
Proximal
Attachment
• Clavicular
head—
medial
half of
clavicle
• Sternal
head—
sternum,
superior 6
costal
cartilages
Distal
Attachment Innervation
Medial and
Lateral lip
intertubercu- lateral
lar groove of pectorals
humerus
Main Actions
• Adducts,
flexes, and
medially
rotates
humerus
• Draws
scapula
anteriorly
(continued)
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Muscles of the shoulder (continued)
Muscle
Pectoralis
minor
Serratus
anterior
Subclavius
Trapezius
Latissimus
dorsi
Proximal
Distal
Attachment Attachment Innervation
and
external
oblique
aponeurosis
Coracoid
Medial
Ribs 3–5
process of
pectoral
scapula
Medial
Long thoracic
Ribs 1–8
border of
scapula
Junction of
1st rib and
costal
cartilage
Superior
nuchal line,
external
occipital
protuberance,
nuchal
ligament,
C7–C12
spinous
processes
T6–T12
spinous
processes,
thoracolumbar fascia,
iliac crest,
and ribs
9–12
C1–C4
transverse
processes
Stabilizes
scapula
• Protracts and
rotates
scapula
• Holds
scapula
against
thoracic wall
Depresses
clavicle
Middle 1⁄3
of clavicle
Nerve to
subclavius
Lateral 1⁄3
of clavicle,
acromion,
spine, of
scapula
Spinal
accessory
Floor of
intertubercular groove
of humerus
Thoracodorsal Extends,
adducts,
medially
rotates
humerus
Medial border Dorsal
and superior scapular
angle of
scapula
Rhomboids— • Major— • Major—
medial
T2–T5
major
border of
spinous
and minor
scapula
processes
Levator
scapulae
Main
Actions
• Elevation,
depression,
retraction of
scapula
• Rotates
glenoid fossa
superiorly
Elevates
scapula
(continued)
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Muscles of the shoulder (continued)
Muscle
Deltoid
Proximal
Distal
Attachment Attachment Innervation
• Minor— • Minor—
spine of
nuchal
scapula
ligament
C7–T11
spinous
processes
Deltoid
• Clavicle
• Acromion tuberosity of
and spine humerus
of scapula
Supraspinatus Supraspin- Greater
ous fossa of tubercle of
humerus
scapula
Infraspinatus
Infraspinous
fossa of
scapula
Teres
minor
Lateral
border of
scapula
Teres
major
Inferior
angle of
scapula
Axillary
Main Actions
Retract and
rotate scapula
Flexes and
medially rotates
(anterior part),
abducts (middle
part), extends
and laterally
rotates
(posterior part)
arm
Suprascapular • Initiates
abduction of
arm
• Rotator cuff
muscle
• Laterally
rotates arm
• Rotator cuff
muscle
Axillary
Medial lip of
intertubercular groove
of humerus
Subscapularis Subscapular Lesser
tubercle of
fossa of
humerus
scapula
Lower
subscapular
Adducts and
medially
rotates arm
Upper and
lower
subscapular
• Adducts and
medially
rotates arm
• Rotator cuff
muscle
Clinical Significance
Serratus Anterior Paralysis
When serratus anterior is paralyzed owing to injury of the
long thoracic nerve, the medial border moves laterally and
posteriorly away from the thoracic wall, giving the scapula
the appearance of a wing—winged scapula.
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Mnemonics
Long Thoracic Nerve
C5–C7, raise your wings to heaven.
C5–C7 (cord levels found within the serratus anterior)
injury causes inability to “raise” arm past 90 degrees
(to heaven) and results in a winged scapula.
SALT—Serratus Anterior; Long Thoracic nerve
Rotator Cuff
The humeral head SITS in the glenoid fossa because of the
rotator cuff muscles—Supraspinatus, Infraspinatus, Teres
Minor, Subscapularis.
Nerves of the shoulder
Nerve
Origin
Structures Innervated
Supraclavicular Cervical plexus (C3–C4)
nerves
Sensory to skin of shoulder
Axillary
Teres minor, shoulder joint, deltoid,
skin of shoulder
Posterior cord
Dorsal scapular C5
Rhomboids, levator scapulae
Spinal accessory 1st few cervical spinal
(CN XI)
cord segments
Trapezius and sternocleidomastoid
Clinical Significance
Axillary Nerve
The deltoid atrophies when the axillary nerve is damaged,
as happens during fracture of the surgical neck of the
humerus or inferior dislocation of the glenohumeral joint.
A loss of sensation over the proximal arm accompanies atrophy of the deltoid.
Vessels of the shoulder
(Figure 6-2)
Artery
Origin
Subclavian— • Right—
brachiocephalic
right and left
trunk
• Left—arch of the
aorta
Description
• Ends at lateral border of 1st rib to
become the axillary
• Gives rise to vertebral, internal
thoracic, and thyrocervical trunk
(continued)
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Vessels of the shoulder (continued)
Artery
Internal
thoracic
Origin
1st part of
subclavian
Thyrocervical
trunk
Description
Gives rise to anterior intercostals,
musculophrenic, superior epigastric,
and pericardiacophrenic
Gives rise to suprascapular, transverse
cervical, inferior thyroid, and ascending
cervical
Supplies shoulder region
Suprascapular Thyrocervical trunk
Transverse
cervical
Axillary
Subclavian at lateral • 1st part—superior thoracic
• 2nd part—thoracoacromial, lateral
border of 1st rib
thoracic
• 3rd part—anterior humeral
circumflex, posterior humeral
circumflex, and subscapular
Superior
Supplies 1st and 2nd intercostal
1st part of axillary
thoracic
spaces, serratus anterior
Gives rise to pectoral, deltoid,
Thoracoacro- 2nd part of axillary
acromial, and clavicular branches
mial
Supplies lateral aspect of breast
Lateral
thoracic
Supplies area around neck of humerus
3rd part of axillary
Circumflex
humeral
(anterior and
posterior)
Subscapular
Gives rise to circumflex scapular and
thoracodorsal
Supplies scapular region
Circumflex
Subscapular
scapular
Supplies latissimus dorsi
Thoracodorsal
Additional Concept
Venous Drainage
Venous drainage generally parallels arterial supply.
Clinical Significance
Axillary Artery
The axillary artery can be compressed against the
humerus or the first rib if profuse bleeding occurs.
Branches of the axillary artery contribute to the extensive
anastomoses around the scapula, which may serve to protect
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167
the limb during occlusion or compression of the primary
arterial pathways.
Aneurysm of the axillary artery may compress the trunks
of the brachial plexus, leading to pain and anesthesia in the
areas supplied by the affected nerves.
Mnemonics
Axillary Artery Branches
The axillary artery is divided into three parts by the pectoralis
minor. The parts correspond to the number of branches:
1. Part 1—proximal to pectoralis minor has one branch:
superior thoracic
2. Part 2—deep to pectoralis minor has two branches: thoracoacromial and lateral thoracic arteries
3. Part 3—distal to pectoralis minor has three branches:
anterior and posterior humeral circumflex and the subscapular trunk
Send The Lord to Say A Prayer—proximal to distal
branches off of the axillary artery:
Superior Thoracic
Thoracoacromial
Lateral Thoracic
Subscapular
Anterior Circumflex Humeral
Posterior Circumflex Humeral
Thoracoacromial Trunk Branches
CAlifornia Police Department—branches of the
thoracoacromial trunk:
Clavicular
Acromial
Pectoral
Deltoid
ARM REGION
Bones of the arm
(Figures 6-1, 6-3, and 6-7)
Bone
Characteristic
Humerus Head
Significance
Articulates with glenoid fossa of the
scapula to form glenohumeral joint
(continued)
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Bones of the arm (continued)
Bone
Characteristic
Significance
Greater tubercle
• Lateral aspect of humerus
• Attachment for supraspinatus,
infraspinatus, and teres minor
Lesser tubercle
• Medial aspect of humerus
• Attachment for subscapularis
Anatomical neck
Attachment for glenohumeral joint capsule
Surgical neck
• Common site for humeral fracture
• Distal to greater and lesser tubercles
• Axillary nerve and posterior humeral
circumflex artery are found nearby and are
subject to injury during fracture at the neck
Intertubercular
groove (bicipital
groove)
• Located between the greater and lesser
tubercles
• Transmits tendon of the long head of the
biceps brachii
• Bridged by the transverse humeral
ligament
• Lateral lip attachment for pectoralis major
• Floor attachment for latissimus dorsi
• Medial lip attachment for teres major
Lateral epicondyle
Attachment for common extensor tendon of
the forearm and the supinator
Medial epicondyle
Attachment for common flexor tendon of the
forearm and pronator teres
Attachment for brachioradialis, extensor
Lateral
supracondylar ridge carpi radialis longus and medial head of
triceps brachii
Attachment for brachialis and the medial
Medial
supracondylar ridge head of triceps brachii
Trochlea
Articulates with trochlear notch of ulna
Capitulum
Articulates with head of radius
Radial fossa
Receives the head of the radius during
forearm flexion
Olecranon fossa
Receives olecranon of the ulna during
forearm extension
Coronoid fossa
Receives coronoid process of ulna during
forearm flexion
(continued)
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Bones of the arm (continued)
Bone
Characteristic
Radial (spiral)
groove
Deltoid tuberosity
Significance
• Transmits the deep brachial artery and
radial nerve
• Separates the proximal attachments of the
lateral head (lateral to groove) and medial
head (medial to groove) of the triceps brachii
Attachment for deltoid
Mnemonic
Intertubercular Groove Muscle Attachments
The lady between two majors.
Teres major attaches to the medial lip of the intertubercular groove.
Pectoralis major attaches to the lateral lip of the
intertubercular groove.
Latissimus (lady) Dorsi attaches to the floor of the groove,
between the two majors.
Clinical Significance
Fractures
Most humeral fractures occur at the surgical neck, resulting
in an impacted fracture. A fall on the acromion may result in
an avulsion fracture in which the greater tubercle is pulled
away from the humerus. A direct blow to the arm may result
in a transverse or spiral fracture of the shaft, whereas an intercondylar fracture may occur during a fall on a flexed elbow.
Muscles of the arm
Muscle
Coracobrachialis
Biceps
brachii
Proximal
Attachment
Coracoid
process
• Long head—
supraglenoid
tubercle
• Short head—
coracoid
process
Brachialis Distal humerus,
including medial
supracondylar
ridge
Distal
Attachment
Humerus
Radial
tuberosity
Ulnar
tuberosity
Main
Innervation
Actions
Musculocutaneous Flexes and
adducts
arm
Musculocutaneous Flexes arm
and
forearm,
supinates
Musculocutaneous Flexes
forearm
(continued)
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Muscles of the arm (continued)
Proximal
Attachment
• Long head—
infraglenoid
tubercle
• Lateral
head—
lateral to
radial groove
• Medial
head—
medial to
radial groove,
medial and
lateral
supracondylar
ridges
Anconeus Lateral
epicondyle
Muscle
Triceps
brachii
Distal
Attachment
Olecranon
process
Olecranon
process
Innervation
Radial
Radial
Main
Actions
Extends
forearm
Extends
forearm
Mnemonic
Biceps Brachii Attachments
You ride shorter to the street corner and ride longer on
the superhighway.—
Short head of the biceps brachii attaches to the coracoid
process.
Long head of the biceps brachii attaches to the supraglenoid tubercle.
Clinical Significance
Tendonitis of the Biceps Brachii
Biceps tendonitis, inflammation of the tendon of the long
head, is the result of repetitive movement of the tendon in
the intertubercular groove, as occurs in sports that involve
throwing. Rupture of the tendon may occur as the tendon is
torn from the supraglenoid tubercle.
Nerves of the arm
Nerve
Origin
Dorsal scapular
C5
Long thoracic
Superior trunk
Suprascapular
Nerve to subclavius
Structures Innervated
Rhomboids, levator scapulae
Serratus anterior
Supraspinatus and infraspinatus
Subclavius
(continued)
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Nerves of the arm (continued)
Nerve
Origin
Lateral pectoral
Lateral cord
Musculocutaneous
Median
Lateral cord
and medial
cord
Medial pectoral
Ulnar
Medial cord
Upper subscapular Posterior cord
Lower subscapular
Thoracodorsal
Axillary
Radial
Structures Innervated
Pectoralis major
• Anterior compartment of the arm
• Sensory to lateral forearm
• Anterior compartment of the forearm
(except flexor carpi ulnaris and the
ulnar half of flexor digitorum
profundus), muscles of the thenar
eminence and the first 2 lumbricals
Pectoralis minor and major
• Flexor carpi ulnaris and the ulnar half
of flexor digitorum profundus
• Most muscles of the hand
• Sensory to hand medial to digit 4
Subscapularis
Subscapularis and teres major
Latissimus dorsi
• Teres minor, deltoid
• Shoulder joint, sensory to skin over
shoulder
• Posterior compartments of arm and
forearm
• Sensory to skin of posterior arm,
forearm, and hand
Clinical Significance
Thoracodorsal Nerve Injury
Injury to the thoracodorsal nerve, as may occur during
resection of axillary lymph nodes in breast cancer, causes
paralysis of the latissimus dorsi. The person is then unable
to raise the trunk with the upper limbs or use an axillary
crutch.
Arm vessels
(Figure 6-2)
Artery
Axillary
Origin
Subclavian at lateral
border of 1st rib
Description
• 1st part—superior thoracic
• 2nd part—thoracoacromial, lateral
thoracic
• 3rd part—anterior circumflex humeral,
posterior circumflex humeral, and
subscapular
(continued)
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Arm vessels (continued)
Artery
Origin
Description
Circumflex 3rd part of axillary
humeral
(anterior and
posterior)
arteries
Supplies area around neck of humerus
Subscapular
artery
Gives rise to circumflex scapular and
thoracodorsal
Circumflex
scapular
artery
Subscapular
Thoracodorsal artery
Supplies scapular region
Supplies latissimus dorsi
Brachial
artery
Axillary after lateral
border of teres
major
• Continuation of axillary
• Terminates in elbow region to form
radial and ulnar arteries
Deep
brachial
artery
Brachial
• Supplies posterior compartment of
arm and elbow joint
• Runs in radial groove with radial nerve
Superior
ulnar
collateral
artery
Supplies elbow region
Inferior
ulnar
collateral
artery
Additional Concept
Venous Drainage
Venous drainage generally parallels arterial supply.
Clinical Significance
Brachial Artery
Compression of the brachial artery is best accomplished
along the medial humerus in the mid-arm region. Collateral
circulation through the deep brachial artery allows for perfusion distal to the compression.
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FOREARM REGION
Bones of the forearm
(Figures 6-1 and 6-7)
Bone
Radius
Characteristic
Head
Radial tuberosity
Ulnar notch
Styloid process
Ulna
Olecranon
Coronoid process
Trochlear notch
Ulnar tuberosity
Radial notch
Supinator crest
Supinator fossa
Head
Styloid process
Significance
• Articulates with capitulum of humerus and
radial notch of ulna
• Held in place by the anular ligament
Attachment for biceps brachii
Articulates with head of ulna
Attachment for brachioradialis and radial
collateral ligament
Attachment for flexor carpi ulnaris (ulnar
head), triceps brachii, anconeus, and ulnar
collateral ligament
• Articulates with coronoid fossa of
humerus during flexion
• Attachment for pronator teres, flexor
digitorum superficialis and ulnar collateral
ligament
Articulates with trochlea of humerus
Attachment for brachialis
Articulates with head of radius
Attachment for supinator
Articulates with ulnar notch of radius and
articular disc of the wrist
Attachment for ulnar collateral ligament
Clinical Significance
Fractures
As a result of attempting to break a fall with the outstretched
limb a Colles’ fracture may occur. A Colles’ fracture is a
transverse fracture of the distal radius, often accompanied
by an avulsed styloid process of the ulna. The result is a
posterior angulation of the forearm, just proximal to the
wrist—a dinner fork deformity.
Fractured Elbow
Fracture of the olecranon—a fractured elbow, is often
caused by a fall. The triceps brachii pulls the avulsed piece
of bone in this painful and debilitating injury.
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CLINICAL ANATOMY FOR YOUR POCKET
Muscles of the forearm
Muscle
Pronator
teres
Flexor
carpi
radialis
Palmaris
longus
Proximal
Attachment
Medial
epicondyle of
humerus and
coronoid
process of ulna
Medial
epicondyle of
humerus
Medial
epicondyle of
humerus and
olecranon
process and
posterior ulna
Medial
Flexor
digitorum epicondyle of
superficialis humerus and
coronoid
process of ulna
and anterior
radius
Flexor
carpi
ulnaris
Ulna and
Flexor
digitorum interosseous
profundus membrane
Flexor
pollicis
longus
Pronator
quadratus
Brachioradialis
Extensor
carpi
radialis
longus
Distal
Attachment
Mid-radius
Innervation
Median
Flexes wrist
and abducts
hand
Flexes wrist
2nd
metacarpal
Flexor
retinaculum
and palmar
aponeurosis
Pisiform,
hook of
hamate and
5th
metacarpal
Main
Actions
Pronates and
flexes elbow
Ulnar
Flexes wrist
and adducts
hand
Middle
phalanges of
medial 4
digits
Median
Distal
phalanges of
medial 4
digits
Medial
part—ulnar;
lateral
part—
median
Anterior
interosseous
(median)
Flexes proximal
interphalangeal
joints of medial
4 digits and
flexes
metacarpophalangeal joints
and flexes wrist
Flexes distal
interphalangeal
joints of medial
4 digits and
flexes wrist
Flexes thumb
Radius and
interosseous
membrane
Ulna
Distal
phalanx of
thumb
Radius
Lateral
supracondylar
ridge of
humerus
Styloid
process of
radius
2nd
metacarpal
Pronates
Radial
Flexes forearm
Extends hand
and abducts
wrist
(continued)
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Muscles of the forearm (continued)
Muscle
Extensor
carpi
radialis
brevis
Extensor
digitorum
Extensor
digiti
minimi
Extensor
carpi
ulnaris
Supinator
Abductor
pollicis
longus
Extensor
pollicis
longus
Extensor
pollicis
brevis
Extensor
indicis
Proximal
Attachment
Lateral
epicondyle of
humerus
Lateral
epicondyle of
humerus and
ulna
Lateral
epicondyle of
humerus, radial
collateral
ligament, anular
ligament,
supinator crest,
and fossa of
ulna
Ulna, radius,
and interosseous membrane
Ulna and
interosseous
membrane
Radius and
interosseous
membrane
Ulna and
interosseous
membrane
Distal
Attachment
3rd
metacarpal
Innervation
Deep radial
(radial)
Main
Actions
Extensor
expansion of
medial 4
digits
5th digit
extensor
expansion
5th
metacarpal
Posterior
interosseous
(radial)
Proximal
radius
Deep radial
(radial)
Supinates
1st
metacarpal
Posterior
interosseous
(radial)
Abducts thumb
Distal
phalanx of
thumb
Proximal
phalanx of
thumb
2nd digit
extensor
expansion
Extends medial
4 digits
Extends 5th
digit
Extends hand
and adducts
wrist
Extends thumb
Extends 2nd
digit
Mnemonics
Relationship of Flexor Tendons in the Digits
Superficialis splits in two to permit profundus to pass
through.
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Relationship of Flexors in the Anterior Forearm
Tuck your thumb into your palm; lay your hand on your
proximal forearm with the fingers pointed toward your
hand.Your fingers represent the top layer of muscles:
2nd digit—pronator teres
3rd digit—flexor carpi radialis
4th digit—palmaris longus
5th digit—flexor carpi ulnaris
1st digit (thumb) represents the intermediate muscle
layer—flexor digitorum superficialis
Clinical Significance
Elbow Tendonitis
Elbow tendonitis, or tennis elbow, is caused by repetitive
use of the superficial extensor muscles of the forearm.
Forearm nerves
Nerve
Origin
Structures Innervated
Median
Union of lateral root
(lateral cord) and
medial root (medial
cord)
Pronator teres, flexor carpi radialis,
palmaris longus, and flexor digitorum
superficialis
Anterior
Median
interosseous
Lateral aspect of flexor digitorum
profundus, flexor pollicis longus, and
pronator quadratus
Ulnar
Medial cord of
brachial plexus
Medial aspect of flexor digitorum
profundus and flexor carpi ulnaris
Radial
Posterior cord of
brachial plexus
Brachioradialis and extensor carpi
radialis longus
Deep branch Radial
of radial
Extensor carpi radialis brevis, and
supinator
Posterior
Deep branch of
interosseous radial
Extensor digitorum, extensor digiti
minimi, extensor carpi ulnaris, abductor
pollicis longus, extensor pollicis longus,
extensor pollicis brevis, and extensor
indicis
Posterior
Radial
cutaneous
nerve of the
forearm
Posterior aspect of the forearm
(continued)
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Forearm nerves (continued)
Nerve
Lateral
cutaneous
nerve of the
forearm
Medial
cutaneous
nerve of the
forearm
Origin
Musculocutaneous
Structures Innervated
Lateral aspect of the forearm
Medial cord of
brachial plexus
Medial aspect of the forearm
Mnemonic
Radial Nerve
The radial nerve innervates the BEST muscles—
Brachioradialis
Extensors
Supinator
Triceps Brachii
Vessels of the forearm
(Figure 6-2)
Artery
Origin
Brachial
Ulnar
Radial
Anterior ulnar recurrent Ulnar
Posterior ulnar recurrent
Common interosseous
Anterior interosseous Common
Posterior interosseous interosseous
Recurrent interosseous Posterior
interosseous
Ulnar
Palmar carpal branch
Dorsal carpal branch
Radial
Radial recurrent
Palmar carpal branch
Dorsal carpal branch
Description
Terminal branch of the brachial
Supplies elbow region
Gives rise to anterior and posterior
interosseous
Supplies anterior aspect of forearm
Supplies posterior aspect of forearm
Supplies elbow region
Contributes to palmar carpal arch
Contributes to dorsal carpal arch
Supplies elbow region
Contributes to palmar carpal arch
Contributes to dorsal carpal arch
Additional Concept
Venous Drainage
Venous drainage generally parallels arterial supply.
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Mnemonic
Arterial Anastomosis at Elbow
I Am Pretty Smart
Inferior ulnar collateral artery anastomoses with the
Anterior ulnar recurrent artery. Posterior ulnar recurrent
artery anastomoses with the Superior ulnar collateral artery.
HAND REGION
Bones of the hand
(Figures 6-1 and 6-4)
Bone
Characteristic
Significance
Scaphoid Tubercle
• Attachment for abductor pollicis brevis,
opponens pollicis, flexor pollicis brevis,
radial collateral ligament, and flexor
retinaculum (tubercle)
• Articulates with radius, trapezium, lunate,
capitate, and trapezoid
• Most commonly fractured carpal bone
Lunate
Crescent-shaped
• Articulates with radius, scaphoid, triquetrum, capitate, and hamate
• Most frequently dislocated carpal bone
Triquetrum
Pyramid-shaped
• Articulates with pisiform, hamate and lunate
• Attachment for ulnar collateral ligament
Pisiform
Spheroidal
• Articulates with triquetrum
• Attachment for flexor retinaculum, flexor
carpi ulnaris, and abductor digiti minimi
Trapezium
Tubercle
• Attachment for flexor retinaculum, opponens
pollicis, abductor pollicis brevis, and flexor
pollicis brevis
• Articulates with scaphoid, 1st and 2nd
metacarpals, and trapezoid
Trapezoid Wedge-shaped
Articulates with scaphoid, 2nd metacarpal,
trapezium, and capitate
Capitate
Head
• Attachment for adductor pollicis
• Articulates with scaphoid; lunate; 2nd, 3rd,
and 4th metacarpals; trapezoid; and hamate
• Largest carpal bone
Hamate
Hamulus
Attachment for flexor retinaculum, opponens
digiti minimi, flexor carpi ulnaris, flexor digiti
minimi; articulates with lunate, 4th and 5th
metacarpals, triquetrum, and capitate
(continued)
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Bones of the hand (continued)
Bone
Characteristic
Metacar- Heads
pals (5)
Proximal
phalanges (5)
Middle
phalanges (5)
Distal
Tuberosity
phalanges (4)
Significance
Articulate with proximal phalanges
Articulate with more distal phalanges
Ungual tuberosity supports the fingernail
Scaphoid
Radius
Capitate
Lunate
FIGURE 6-4. Scaphoid fracture. The scaphoid is the most frequently fractured carpal bone; fractures may result from a fall on
the palm. (From Dudek RW, Louis TM. High-Yield Gross Anatomy.
3rd ed. Baltimore: Lippincott Williams & Wilkins; 2008:235.)
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CLINICAL ANATOMY FOR YOUR POCKET
Mnemonic
Carpal Bones
She Looks To Pretty, Try To Catch Her
Scaphoid, Lunate, Triquetrum, Pisiform, Trapezium,
Trapezoid, Capitate, Hamate
The trapezium is nearest the thumb—trapeze-e-thumb.
Clinical Significance
Fractures
The scaphoid is the most frequently fractured carpal bone
and occurs from a fall on the palm when the wrist is
abducted.
Fracture of the 5th metacarpal, a boxer’s fracture,
occurs when an unskilled person punches someone, causing
the head of the bone to rotate over the distal shaft.
Injuries of the phalanges are common and are extremely
painful, often resulting from crush injuries.
Muscles of the hand
Proximal
Muscle Attachment
Thenar Muscles
Opponens Flexor retinacupollicis
lum, trapezium
Distal
Attachment
Abductor
pollicis
Proximal
phalanx
of thumb
Flexor
pollicis
brevis
Adductor
pollicis
Flexor
retinaculum,
trapezium, and
scaphoid
Flexor
retinaculum,
and trapezium
• Oblique
head—2nd
and 3rd metacarpals, capitate and
adjacent
carpals
1st metacarpal
Innervation
Main Actions
Recurrent
branch of
median
Rotates and
draws 1st metacarpal medially
Abducts thumb,
helps opposition
• Superficial Flexes thumb
head—
recurrent
branch of
median
• Deep
head—deep
branch of
ulnar
Deep branch Adducts thumb
of ulnar
(continued)
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Muscles of the hand (continued)
Proximal
Distal
Attachment
Attachment Innervation
• Transverse
head—3rd
metacarpal
Hypothenar Muscles
Abductor Pisiform
Proximal
Deep branch
digiti
phalanx of
of ulnar
minimi
5th digit
Flexor
Flexor
digiti
retinaculum
minimi
and hamate
Opponens
5th metadigiti
carpal
minimi
Short Muscles—Lumbricals and Interossei
1st and
Tendons of
Extensor
Median
2nd lum- flexor digitoexpansions of
bricals
rum profundus digits 2–5
3rd and
Deep branch
4th lumof ulnar
bricals
Palmar
2nd, 4th, and
Proximal phainterossei 5th metacarpals langes and
extensor
expansions of
2nd, 4th, and
5th digits
Muscle
Dorsal
interossei
Metacarpals
Proximal phalanges and
extensor
expansions
of 2nd–4th
digits
Main Actions
Abducts 5th
digit
Flexes 5th digit
Opposes 5th
digit with thumb
Flex digits at
metacarpophalangeal joints
and extend at
interphalangeal
joints
• Adduct 2nd,
4th, and 5th
digits
• Flex digits at
metacarpophalangeal
joints and
extend at
interphalangeal joints
Abduct 2nd–4th
digits; flex digits
at metacarpophalangeal
joints and
extend at interphalangeal
joints
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Mnemonics
Innervation of Hand Musculature
Meat LOAF muscles—Median nerve innervates the first
two Lumbricals, Opponens Pollicis, Abductor Pollicis
Brevis and Flexor Pollicis Brevis in the hand.
Interossei Function
PAd and DAb—Palmer interossei Adduct, Dorsal interossei
Abduct.
Hand nerves
Nerve
Median
Palmar cutaneous
branch of median
Ulnar
Palmar cutaneous
branch of ulnar
Dorsal cutaneous
branch of ulnar
Superficial branch
of radial
Origin
Union of lateral
root (lateral
cord) and
medial root
(medial cord)
Median
Structures Innervated
Opponens pollicis, abductor pollicis
brevis, superficial head of flexor pollicis
brevis, and 1st and 2nd lumbricals
Sensory over palm, sides of digits 1–3,
lateral side of 4th digit, and dorsum of
of distal aspect of digits 1–4
Medial cord of Opponens digiti minimi, flexor digiti
brachial plexus minimi brevis, abductor digiti minimi,
3rd and 4th lumbricals, adductor pollicis,
deep head of flexor pollicis brevis, and
the palmar and dorsal interossei
Ulnar
Sensory to medial aspect of palm,
5th digit and medial half of 4th digit
Sensory to medial aspect of dorsum,
5th digit and medial half of 4th digit
Radial
Sensory to lateral 2⁄3 of dorsum of
hand, thumb and lateral 11⁄2 digits
Vessels of the hand
(Figure 6-2)
Artery
Superficial palmar
arch
Deep palmar arch
Origin
Description
Continuation of the Common palmar digital arteries
ulnar with contribution from radial
Continuation of the Palmar metacarpal arteries
radial with contribution from the
ulnar
(continued)
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Vessels of the hand (continued)
Artery
Common palmar
digitals
Proper palmar
digitals
Princeps pollicis
Radialis indicis
Dorsal carpal arch
Palmar carpal arch
Origin
Superficial palmar
arch
Common palmar
digitals
Radial
Radial and ulnar
Description
Proper palmar digitals
Supplies digits
Supplies thumb
Supplies 2nd digit
Supplies wrist
Additional Concept
Venous Drainage
Venous drainage generally parallels arterial supply.
Palmar Arches
The superficial palmar arch is more distal (in line with the
distal margin of the extended thumb); the deep arch is more
proximal.
Clinical Significance
Palmar Arch
Bleeding is usually profuse and difficult to control when
the palmar arches are lacerated. Often, it is necessary
to compress the brachial artery in the arm to limit the
bleeding.
MISCELLANEOUS
Areas of the upper limb
Area
Axilla
Structure
Significance
4-sided, fat-filled, pyramidal
• Permits passage of neurospace inferior to glenohumeral
vascular elements to and
joint and superior to axillary fascia:
from the upper limb—
• Apex: cervicoaxillary canal—
contains axillary artery and
passageway between neck
vein, major portion of the
and axilla
brachial plexus, and lymph
• Base: axillary fascia
nodes
• Anterior wall: pectoralis major
and minor
(continued)
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Areas of the upper limb (continued)
Area
Quadrangular
space
Upper
triangular
space
Lower
triangular
space
Cubital
fossa
Carpal
tunnel
Deltopectoral
triangle
Anatomic
snuff-box
Structure
• Posterior wall: subscapularis,
teres major, and latissimus dorsi
• Medial wall: thoracic wall and
serratus anterior
• Lateral wall: humerus
Boundaries:
• Superior: teres minor
• Inferior: teres major
• Medial: long head of triceps
brachii
• Lateral: humerus
Boundaries:
• Superior: teres minor
• Inferior: teres major
• Lateral: long head of triceps
brachii
Boundaries:
• Superior: teres major
• Medial: long head of triceps
brachii
• Lateral: medial head of triceps
brachii
Triangular depression on anterior
aspect of elbow, boundaries:
• Superior: imaginary line
between the medial and lateral
epicondyles
• Medial: pronator teres
• Lateral: brachioradialis
• Floor: brachialis
• Roof: bicipital aponeurosis
Cup-shaped (concave anteriorly)
passageway from the forearm
to the hand; boundaries:
• Lateral: scaphoid and trapezoid
• Medial: hamate and pisiform
• Roof (anterior): flexor retinaculum
• Triangular area bounded by
the clavicle, deltoid and pectoralis major
• Covered by clavipectoral fascia
Triangular area bounded medially
by the tendon of extensor pollicis
longus, laterally by the tendons
of extensor pollicis brevis and
abductor pollicis longus
Significance
• Axillary sheath: extension of
cervical (prevertebral) fascia
that ensheathes proximal
end of neurovascular
elements
Permits passage of the axillary
nerve and posterior humeral
circumflex artery to posterior
aspect of shoulder
Permits passage of the circumflex scapular artery to
posterior aspect of shoulder
Permits passage of radial
nerve and deep brachial artery
to posterior aspect of arm
• Contains: brachial artery and
its division into radial and
ulnar arteries (and their
accompanying deep veins),
biceps brachii tendon, and
median nerve
• Median cubital vein lies
superficial to bicipital
aponeurosis
Conveys the tendons of the
flexor digitorum superficialis,
flexor digitorum profundus
andflexor pollicis longus, and
the median nerve
Pierced by cephalic vein,
branches of the thoracoacromial
trunk and lateral pectoral
nerve located within
• Floor is formed primarily
by the scaphoid
• Radial artery passes
through—the radial pulse
may be taken here
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Mnemonic
Structures in the Cubital Fossa
TAN—structures found within the cubital fossa from lateral
to medial:
Tendon: biceps brachii
Artery: brachial
Nerve: median
Clinical Significance
Axilla
Wounds in the axilla often involve the axillary vein, because
of its large size and superficial position.
Carpal Tunnel
Carpal tunnel syndrome results from anything that limits
the space in the carpal tunnel and is characterized by loss of
sensation over the first digit, the inability to oppose the
thumb, and thenar wasting from the compromised function
of the median nerve.
Superficial structures of the upper limb
Structure
Vessel
Cephalic vein
Basilic vein
Median cubital
vein
Median vein of
the forearm
Dorsal venous
network
Lymphatics of
upper limb
Course/Significance
• Origin: dorsal venous network; runs along lateral
aspect of upper limb
• Enters deltopectoral triangle, pierces costocoracoid
membrane to join axillary vein
• Origin: dorsal venous network; runs along medial
aspect of upper limb
• Pierces the brachial fascia at mid-arm to join with the
brachial veins to form the axillary vein
• Joins the cephalic and basilic veins over the cubital
fossa
• Supported by the bicipital aponeurosis
• Origin: dorsal venous network
• Courses between and enters the cephalic or basilic
veins at the elbow
Highly variable superficial venous network on dorsum
of hand
• Superficial lymphatic vessels accompany veins to enter
superficial lymph nodes
• Includes: cubital and axillary groups
(continued)
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Superficial structures of the upper limb (continued)
Structure
Cutaneous Nerve
Supraclavicular
nerves
Posterior cutaneous nerve of the
arm
Superior lateral
cutaneous nerve
of the arm
Inferior lateral
cutaneous nerve
of the arm
Intercostobrachial
Medial cutaneous
nerve of the arm
Medial cutaneous
nerve of the
forearm
Posterior
cutaneous nerve
of the forearm
Lateral cutaneous
nerve of the arm
Lateral cutaneous
nerve of the
forearm
Terminal branches
of the median
Terminal branches
of the radial
Terminal branches
of the ulnar
Course/Significance
• Origin: cervical plexus (C3–C4)
• Sensory to skin of shoulder
• Origin: Radial nerve
• Sensory to skin of posterior aspect of arm
• Origin: continuation of axillary nerve
• Sensory to lateral aspect of arm (proximally)
• Origin: radial nerve
• Sensory to skin over lateral aspect of arm (distally)
• Origin: 2nd intercostal nerve
• Sensory to medial aspect of arm
• Origin: medial cord
• Sensory to medial aspect of arm
• Origin: medial cord
• Sensory to medial aspect of forearm
• Origin: radial nerve
• Sensory to posterior aspect of forearm
• Origin: axillary nerve
• Sensory to lateral aspect of arm
• Origin: continuation of musculocutaneous
• Sensory to the lateral aspect of the forearm
Sensory over palm, sides of digits 1–3, lateral side of
4th digit, and dorsum of distal aspect of digits 1–4
Sensory to lateral 2⁄3 of dorsum of hand, thumb,
and lateral 11⁄2 digits
Sensory to medial aspect of palm and dorsum, 5th digit,
and medial half of 4th digit
Clinical Significance
Median Cubital Vein
The median cubital vein is the common vein selected for
venipuncture because of its accessibility and superficial relationship to the bicipital aponeurosis, which supplies some
protection to the underlying brachial artery.
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C2
C3
C5
C4
C7
T1
C5
T1
T2
T3
T4
T5
T6
T7
T8
T9
C5
T1
C6
L1
C8
C7
C3
C4
C6
C8
T2
T3
T4
T5
T6
T7
T8
T9
T10
T11
T12
L1
T10
L3
T11
T12
L5
L2
L4
S1
S2
S3
S4
S5
L2
S2 S1
L3
L1
L2
L4
L3
L5
S1
L4
L4
L5
Anterior view
Posterior view
FIGURE 6-5. Dermatome maps of the body are based on accumulation of clinical findings following spinal nerve injuries; this
map is based on the studies of Keegan and Garrett (1948). Spinal
nerve C1 lacks a significant afferent component and does not supply the skin; therefore, no C1 dermatome is depicted. (From Moore
KL, Dalley AF. Clinically Oriented Anatomy. 5th ed. Baltimore:
Lippincott Williams & Wilkins; 2006:53.)
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Fascia of the upper limb
Fascia/
Connective Tissue
Pectoral
Axillary
Clavipectoral
Costocoracoid membrane
Suspensory ligament of
the axilla
Deltoid fascia
Brachial fascia
Antebrachial fascia
Extensor retinaculum
Flexor retinaculum
Palmar fascia
Superficial transverse
carpal ligament
Significance/Structure
Investing fascia of pectoralis major
Forms floor of axilla
Encloses subclavius and pectoralis minor
• Clavipectoral fascia between pectoralis
minor and subclavius
• Pierced by lateral pectoral nerve
• Clavipectoral fascia inferior to pectoralis minor
• Supports axillary fascia and forms axillary
fossa on abduction
Investing fascia of deltoid is continuous with
pectoral and infraspinous fascia
• Sheath of deep fascia surrounding arm
• Attaches distally to humeral condyles and
olecranon process of ulna
• Continuous with antebrachial, pectoral,
deltoid, axillary, and infraspinous fasciae
• Gives rise to medial and lateral intermuscular
septa, which divide arm into anterior and
posterior compartments
• Sheath of deep fascia surrounding forearm
• Continuous with brachial fascia
• Intermuscular septa and the interosseous
membrane divide the forearm into anterior
and posterior compartments
Posterior thickening of antebrachial fascia over
distal ulna and radius—holds extensor tendons
in place
Anterior thickening of antebrachial fascia over
carpal bones—forms carpal tunnel
• Continuous with antebrachial fascia
• Central portion—palmar aponeurosis
Forms base of palmar aponeurosis
Brachial plexus
(Figure 6-6)
Nerve
Roots
Significance/Structure
• Anterior rami of C5–T1
• C5 gives rise to the dorsal scapular nerve and nerve
to subclavius
• C5–C7 give rise to the long thoracic nerve
(continued)
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Brachial plexus (continued)
Nerve
Significance/Structure
Superior trunk
• Formed by the C5 and C6 roots
• Gives rise to the nerve to subclavius and the suprascapular nerve
Middle trunk
Continuation of C7 root
Inferior trunk
Formed by the C8 and T1 roots
Divisions
• Each trunk terminates by dividing into an anterior and
a posterior division
• No branches off the divisions
Lateral cord
• Formed by junction of anterior divisions from the
superior and middle trunks
• Lateral to axillary artery
• Gives rise to the lateral pectoral nerve
• Terminates by dividing into the musculocutaneous
nerve and lateral root of the median nerve
Posterior cord
• Formed by the posterior divisions of all 3 cords
• Posterior to axillary artery
• Gives rise to the upper and lower subscapular and
thoracodorsal nerves
• Terminates by dividing into the axillary and radial
nerves
Medial cord
• Formed by the anterior division of the inferior trunk
• Medial to axillary artery
• Gives rise to the medial pectoral, medial brachial
cutaneous, and medial antebrachial cutaneous nerves
• Terminates by dividing into the ulnar nerve and the
medial root of the median nerve
Mnemonics
Parts of the Brachial Plexus
From proximal to distal:
Real—Roots
Truckers—Trunks
Drink—Divisions
Cold—Cords
Beer—Branches
Terminal Branches of the Brachial Plexus
Terminal branches lateral to medial—
My Audi Races My Uncle.
Musculocutaneous, Axillary, Radial, Median, Ulnar
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CLINICAL ANATOMY FOR YOUR POCKET
5 Roots (ventral rami of
spinal nerves C5–T1)
Dorsal scapular
nerve (C5)
3 Trunks
C5 contribution
to phrenic nerve
3 Anteiror divisions
3 Posterior divisions
Suprascapular
nerve (C5–C6)
C5
Nerve to subclavius
muscle (C5–C6)
C6
To longus
colli and
scalene
muscles
C8 (C5–C8)
C7
Superior
3 Cords
around axillary artery
Middle
Inferior
Terminal
branches
T1
Lateral pectoral
nerve (C5–C7)
1st rib
Lateral Posterior
Medial
Long thoracic
nerve (C5–C7)
1st intercostal nerve
Medial pectoral nerve (C8, T1)
Medial brachial cutaneous nerve (T1)
Medial antebrachial cutaneous
nerve (C8, T1)
Musculocutaneous
nerve (C5–C7)
Axillary nerve
(C5–C6)
Median nerve
(C5–C8, T1)
Dorsal
ramus
Upper subscapular nerve (C5–C6)
Thoracodorsal (middle subscapular)
nerve (C6–C8)
Lower subscapular nerve (C5–C6)
Ulnar nerve
(C7–C8, T1)
Radial nerve
(C5–C8, T1)
FIGURE 6-6. Brachial plexus. (From Tank PW, Gest TR. LWW
Atlas of Anatomy. Baltimore: Lippincott Williams & Wilkins;
2009:43.)
Pectoral Nerves
Lateral Less, Medial More—The Lateral pectoral nerve only
passes through the pectoralis major, whereas the Medial
pectoral nerve passes through both pectoralis major and
minor.
Branches of the Posterior Cord
Branches off the posterior cord: STAR—Subscapulars
(upper and lower), Thoracodorsal, Axillary, Radial
Identification Tip
The musculocutaneous, median, and ulnar nerves form
an “M” on the anterior aspect of the axillary artery,
making their identification a good starting point for the
region.
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Brachial Plexus Variations
Variations in the form of the brachial plexus are common
and may include contributions from additional anterior rami
such as C4 or T2 or alterations in the branches, divisions,
cords, or trunks.
Clinical Significance
Brachial Plexus Injuries
Injuries to the superior parts of the brachial plexus usually
result from an excessive increase in the angle between the
neck and shoulder, as occurs during a fall increasing the
angle between the two or excessive stretching of a baby’s
head and neck during delivery. Injury to the superior part of
the plexus is apparent by the characteristic “waiter’s tip”
position, in which the limb is medially rotated, the shoulder
adducted and the elbow extended.
Injuries to the inferior parts of the brachial plexus occur
when the upper limb is pulled superiorly, as in grasping
something to break a fall or a baby’s upper limb is pulled
during delivery. The intrinsic muscles of the hand are
involved, resulting in claw hand.
Injury to the Terminal Branches
Musculocutaneous Nerve
Musculocutaneous nerve injury results in paralysis of the
muscles in the anterior compartment of the arm and therefore weakening of elbow flexion and supination, as well as
loss of sensation over the lateral forearm.
Radial Nerve
Injury to the radial nerve may result in “wrist drop” as a
result of the loss of wrist extensors and the unopposed
actions of the flexor muscles.
Median nerve
When the median nerve is compromised at the elbow, the
2nd and 3rd digits remain partially extended on attempting
to make a fist—the “hand of the benediction.”
Ulnar Nerve
The ulnar nerve may be compromised as it passes posterior
to the medial epicondyle, resulting in the characteristic
“claw hand,” combined with sensory loss over the medial
aspect of the palm.
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Joints of the upper limb
(Figure 6-3)
Joint
Sternoclavicular
Type
Articulation Structure
Synovial Sternal end of • Anterior, posterior, and
clavicle with
interclavicumanubrium of
lar ligaments
sternum and
strengthen
1st costal
joint
cartilage
• Costoclavicular ligament
attaches
clavicle to
sternum
• Divided into
2 compartments by an
articular disk
Acromial end • CoracoacroAcromioclavicular
mial and
of clavicle
acromioclavwith
icular ligaacromion of
ments
scapula
strengthen
joint superiorly
• Coracoclavicular ligament (subdivided into
trapezoid
and conoid)
strengthens
joint
• GlenohuHead of
Glenohumeral
meral ligahumerus with
(shoulder)
ments
glenoid fossa
strengthen
of scapula;
joint anteriglenoid fossa
orly
deepened by
• Coracohumeglenoid
ral ligament
labrum
strengthens
joint superiorly
• Transverse
humeral ligament forms
Movements
Protraction,
retraction,
elevation, and
depression
Rotation of
scapula on
clavicle
related to
movement of
the
scapulothoracic joint
Flexion,
extension,
abduction,
adduction,
medial rotation, lateral
rotation, and
circumduction
(continued)
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Joints of the upper limb (continued)
Joint
Type
Scapulothoracic
Physiologic
joint
Humeroulnar and
humeroradial
(elbow)
Synovial Trochlea and
capitulum of
humerus with
trochlear
notch of the
ulna and the
head of
the radius
Head of
radius with
radial notch
of ulna
Proximal
radioulnar
joint
Distal
radioulnar
joint
Articulation Structure
canal for
tendon of the
long head of
the biceps
brachii
• Most joint
strength from
rotator cuff
(supraspinatus, infraspinatus, subscapularis,
and teres
minor)
• No bone to
Thoracic
bone articuwall with
lation
scapula and
• Site of
associated
scapula movstructures
ing on thoracic wall
Head of ulna
with ulnar
notch of
radius
Movements
Elevation,
depression,
protraction,
retraction,
and rotation
Radial and
Flexion,
ulnar collateral extension
ligaments
strengthen the
joint on the lateral and medial
aspects
Anular ligament
of the radius
holds the radial
head in radial
notch of ulna
Anterior and
posterior ligaments
strengthen joint
Supination,
pronation by
rotation of
the radial
head
Supination,
pronation by
distal radius
rotating
around ulnar
head
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Joints of the upper limb (continued)
Joint
Radiocarpal
(wrist)
Intercarpal
Carpometacarpal
Type
Articulation Structure
Distal radius • Anterior and
posterior ligwith proximal
aments
carpal bones
strengthen
joint
• Ulnar collateral
attaches to
styloid
process of
ulna and triquetrum
• Radial collateral
attaches styloid of
radius and
scaphoid
Anterior and
Between
posterior
adjacent
carpal bones interosseous
ligaments support joint
Carpals and
metacarpals
Metacarpophalangeal
Head of
metacarpals
with
proximal
phalanges
Interphalangeal
Heads of
proximal
phalanges
articulate
with more
distal
phalanges
Movements
Flexion, extension, abduction, adduction, and
circumduction
Gliding, flexion and
abduction at
midcarpal
Flexion,
extension,
abduction,
and adduction
Flexion, extension, abduction, adduction, and
circumduction
Palmar
ligaments,
deep
transverse
metacarpal,
and collateral
ligaments support joint
Palmar and col- Flexion,
extension
lateral
ligaments support joint
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Humerus
Capitulum
Trochlea
Olecranon
process
Head of
radius
Radial
tuberosity
Ulna
FIGURE 6-7. Lateral elbow radiograph. (From Dudek RW, Louis
TM. High-Yield Gross Anatomy. 3rd ed. Baltimore: Lippincott
Williams & Wilkins; 2008:232.)
Mnemonic
Elbow Movements
Three Bs Bend the elbow—
Brachialis
Biceps brachii
Brachioradialis
Clinical Significance
Dislocations
Dislocation of the acromioclavicular joint—a shoulder
separation, is relatively common in sports or falls that
impact the shoulder.
Most dislocations of the glenohumeral joint occur inferiorly because of the strong ligamentous and muscular support elsewhere.
Subluxation and dislocation of the head of the radius—
also known as “nursemaid’s elbow” or “pulled elbow”—is
common in children that are suddenly lifted by the upper limb.
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7
Head
INTRODUCTION
The head is that portion of the body that sits on the neck;
the skeleton of the head is the cranium (skull), which contains the brain and meninges.
CRANIUM
Cranial bone summary
The cranium is divided into a neurocranium and a viscerocranium.
Neurocranium
■
■
■
encases the brain
roof—calvarium; floor—cranial base
formed of bones: frontal, ethmoid, sphenoid, occipital,
temporal (2), and parietal (2)
Viscerocranium
■
■
skeleton of the face
formed of 15 bones: mandible, maxilla (2), inferior nasal
concha (2), nasal (2), lacrimal (2), vomer, ethmoid, zygomatic (2), and palatine (2)
Bone
Zygomatic arch
Feature
Prominence of
cheekbone
Hard
palate
Bony anterior
aspect of palate
Significance
Formed by union of temporal process of
zygomatic bone anteriorly and zygomatic
process of temporal bone posteriorly
Formed by the palatine processes of the
maxillae—anterior 2⁄3, and the horizontal
plates of the palatine bones—posterior 1⁄3
(continued)
196
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Cranial bone summary (continued)
Bone
Frontal
Feature
Overall
Supraorbital
margin
Parietal
(2)
Overall
Temporal lines (superior and inferior)
Groove for middle
meningeal artery
Occipital Overall
External occipital
protuberance
Nuchal lines (superior and inferior)
Hypoglossal canal
Jugular foramen
Foramen magnum
Groove for transverse sinus
Internal occipital
protuberance
Pharyngeal tubercle
Occipital condyles
Cribriform plate
Significance
• Forms anterior aspect of neurocranium
• Skeleton of forehead
• Forms roof of orbit and floor of anterior
cranial fossa
• Anterior superior aspect of orbit
• Possesses supraorbital foramen or notch—
transmits supraorbital neurovascular
elements
Form lateral aspects of neurocranium
• Proximal attachment for temporalis and its
investing fascia
• Form superior border of temporal fossa
Conveys middle meningeal artery
Forms posterior aspect of neurocranium
Attachment for ligamentum nuchae
Superior—attachment for sternocleidomastoid, trapezius, and splenius capitis
Transmits CN XII
Shared foramen between occipital and
temporal bones that transmits CN IX, X, and
XI, and internal jugular vein and inferior
petrosal sinus
• Site of transition from medulla to spinal cord
• Conveys CN XI and vertebral arteries into
cranial vault
Location of transverse sinuses
Location of the confluens of the sinuses
Attachment for pharyngeal raphe
Articulation with atlas
Ethmoid
• Forms roof of nasal cavity
• Transmits filia olfactoria—CN I
Perpendicular plate Forms superior aspect of nasal septum
Nasal conchae (su- • Form superior aspect of lateral walls of
perior and middle)
nasal cavity
• Act as turbinates for inspired air
Crista galli
Attachment for falx cerebri
Sphenoid Lesser wing
Forms superior border of superior orbital
fissure
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Cranial bone summary (continued)
Bone
Feature
Greater wing
Foramen ovale
Foramen rotundum
Foramen spinosum
Sphenopalatine
foramen
Medial pterygoid
plate
Lateral pterygoid
plate
Optic canal
Sphenoid sinus
Significance
Forms inferior border of superior orbital fissure
Conveys mandibular and lesser petrosal nerves
Conveys maxillary nerve
Conveys middle meningeal artery
Conveys sphenopalatine artery and
nasopalatine nerve to nasal cavity
Possesses hamulus that tensor palati wraps
around on way to soft palate
Attachment for medial and lateral pterygoid
muscles
Conveys CN II and ophthalmic artery
Paranasal air sinus that empties into sphenoethmoidal recess
Sella turcica
• Forms hypophyseal fossa—location of
hypophysis
• Anterior and posterior clinoid processes serve as attachments for diaphragma sella and border the sella turcica,
the dorsum sellae forms the posterior
border of the hypophyseal fossa
Superior orbital
• Space between lesser and greater wings
fissure
of the sphenoid
• Conveys CN III, IV, and VI, the ophthalmic
nerve, and superior ophthalmic vein
Inferior orbital
• Space between maxilla and greater wing
fissure
of sphenoid
• Conveys infraorbital nerve
Maxilla Zygomatic process Articulates with zygomatic bone to form
anterior part of cheek
Infraorbital foramen Conveys infraorbital neurovascular elements
to face
Alveolar processes Form sockets for maxillary teeth
Infraorbital groove Conveys infraorbital neurovascular elements
through orbit
Incisive canal
Conveys septal branches of sphenopalatine
artery and branches of the nasopalatine nerve
Palatine process
Forms anterior 2⁄3 of bony palate
Nasal surface
Forms anterior aspect of lateral wall of nasal
cavity
Mandible Condylar process
• Possesses a head and neck
• Head articulates with temporal bone at
temporomandibular joint
(continued)
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Cranial bone summary (continued)
Bone
Feature
Coronoid process
Mandibular
foramen
Mental foramen
Alveolar processes
Mental spines (superior and inferior)
Mylohyoid line
Ramus
Angle
Body
Mandibular notch
Mental protuberance
Temporal Squamous part
(2)
Petrous part
Significance
Distal attachment for temporalis
• Point along interior of ramus where inferior
alveolar neurovascular elements enter
mandible
• Lingula borders entrance, serves as
attachment point for sphenomandibular
ligament
Conveys mental neurovascular elements to
chin region
Form sockets for mandibular teeth
• Superior—proximal attachment for
genioglossus
• Inferior—proximal attachment for
geniohyoid
Proximal attachment for mylohyoid
Vertical part between body (angle) and
coronoid and condylar processes
Bend between ramus and body
• Horizontal part, forms base of mandible
• Possesses alveolar processes
Notch between condylar and coronoid
processes
Anterior prominence that forms the chin
Flat, lateral aspect; forms part of neurocranium
• Thick, strong internal part
• Houses vestibulocochlear apparatus
Groove for superior Location of superior petrosal sinus
petrosal sinus
Groove for sigmoid Location of sigmoid sinus
sinus
Hiatus for greater Conveys greater petrosal nerve into cranial
petrosal nerve
vault
Hiatus for lesser
Conveys lesser petrosal nerve into cranial
petrosal nerve
vault
Internal acoustic
Conveys CN VII and VII from cranial vault
meatus
into petrous part of temporal bone
External acoustic
• Bony part of external ear
meatus
• Conveys sound to tympanic membrane
Zygomatic process Articulates with temporal process of
zygomatic bone to form zygomatic arch
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Cranial bone summary (continued)
Bone
Feature
Mandibular fossa
Articular tubercle
Styloid process
Mastoid process
Stylomastoid
foramen
Petrotympanic
fissure
Carotid canal
Tympanic canaliculus
Jugular foramen
ZygoZygomaticofacial
matic (2) and zygomaticotemporal foramen
Temporal process
Significance
Articulates with head of condylar process
of mandible to form temporomandibular
joint
Bony prominence anterior to mandibular
fossa that forms part of temporomandibular
joint
Proximal attachment for stylohyoid, stylopharyngeus, and styloglossus muscles and
for stylohyoid and stylomandibular ligaments
• Proximal attachment for posterior belly of
digastric
• Distal attachment for sternocleidomastoid
Exit for CN VII motor fibers from the cranium
Exit for chorda tympani from the cranium
Canal conveying the internal carotid artery
and its nerve plexus as they enter the
cranium
Conveys tympanic nerve into middle ear
cavity
Shared foramen between occipital and
temporal bones that transmits CN IX, X, and
XI, and internal jugular vein and inferior
petrosal sinus
Conveys sensory branches of zygomatic
nerve to skin of cheek
Articulates with zygomatic process of
temporal bone to form zygomatic arch
Inferior
Overall
• Forms inferior aspect of lateral walls of
nasal
nasal cavity
concha (2)
• Acts as turbinate for inspired air
Palatine Perpendicular plate Forms posterior part of lateral wall of nasal
(2)
cavity
Horizontal plate
Forms posterior 1⁄3 of hard palate
Palatine foramina Convey greater and lesser palatine neuro(greater and lesser) vascular elements respectively
Nasal (2) Overall
Form bridge of nose
Lacrimal
Form part of medial wall of orbit
(2)
Vomer
Forms posteroinferior aspect of nasal septum
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Clinical Significance
Fractures of the mandible usually occur in pairs, frequently
on opposite sides.
The extraction of teeth leads to the resorption of alveolar
bone. The mandible shrinks as a result, possibly leaving the
mental foramen open and the mental nerves exposed to pain
from dentures.
Additional Concept
The cranial base is divided into three fossae for descriptive
purposes:
■
■
■
anterior cranial fossa—anterior to lesser wings of the
sphenoid
middle cranial fossa—between lesser wings of the sphenoid and the petrous ridge of the temporal bone
posterior cranial fossa—posterior to the petrous ridge of
the temporal bone
Scalp
The scalp consists of the skin and fascia covering the bones
of the neurocranium.The first three layers form a single unit
that move together.
Layer
Description
Significance
Skin
Thin
Laden with hair follicles and
sweat glands
Connective
tissue
Thick
Dense, highly innervated
Aponeurosis
Connects frontal and occipi- Causes wrinkling of skin of
tal bellies of occipitofrontalis forehead
Loose connective tissue
Loose, with potential spaces • Allows scalp to move
freely
• Potential spaces may allow
for fluid accumulation
Pericranium
Dense connective tissue
Periosteum of neurocranium
Clinical Significance
Trauma
Scalp wounds that do not lacerate the epicranial aponeurosis tend not to gape, owing to its strength.
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CLINICAL ANATOMY FOR YOUR POCKET
Mnemonic
Layers of the Scalp
From superficial to deep, the layers of the scalp are:
Skin
Connective tissue
Aponeurosis
Loose connective tissue
Pericranium
BRAIN
Brain
(Figure 7-1)
The brain is divided into the cerebrum, cerebellum and
brainstem.
■
■
surface area is increased by gyri and sulci
fissures are deep gyri
Structure
Cerebrum
Description
• Largest part of brain
• Formed of 2 cerebral
hemispheres and diencephalon
• Cerebrum divided into
lobes
Diencephalon Located between cerebral
hemispheres
Cerebellum
Brainstem
Formed of 2 cerebellar
hemispheres connected
by a midline vermis
Divided into midbrain,
pons, and medulla
Significance
Lobes: frontal, parietal, temporal,
and occipital
Divided into thalamus, hypothalamus, epithalamus, and subthalamus
Connected to pons of the brainstem by cerebellar peduncles
• Midbrain—most rostral, gives
rise to CN III and IV
• Pons—gives rise to CN V, VI,
VII, and VIII
• Medulla—caudal-most, gives
rise to CN IX, X, and XII
Clinical Significance
Concussion and Contusion
Concussion is a loss of consciousness after a head injury.
Contusion results when the pia mater is stripped from the
surface of the brain, allowing blood to enter the subarachnoid space.
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Cranial nerves
(Figures 7-1, 7-3, and 7-7)
Structure
CN I
CN II
CN III
CN IV
CN V
CN VI
CN VII
CN VIII
CN IX
CN X
CN XI
CN XII
Description
Olfactory
Optic
Oculomotor
Significance
Conveys sense of smell from nasal cavity
Conveys visual information from retina
• Motor to levator palpebrae superioris,
superior, medial and inferior rectus, and
inferior oblique
• Parasympathetic to sphincter pupillae,
ciliaris and superior tarsal muscles
Motor to superior oblique
Trochlear
Three divisions:
Trigeminal
1. Ophthalmic (V1)—sensory to upper 1⁄3 of
face, cornea, and paranasal sinuses
2. Maxillary (V2)—sensory to middle 1⁄3 of face,
upper teeth, maxillary sinuses, and palate
3. Mandibular (V3)—sensory to lower 1⁄3 of
face, temporomandibular joint, anterior
2
⁄3 of tongue, lower teeth, and motor to
muscles of mastication, anterior belly
of digastric, mylohyoid, tensor palati, and
tensor tympani
Motor to lateral rectus
Abducens
Facial
• Motor to muscles of facial expression,
stapedius, stylohyoid, and posterior belly
of digastric
• Parasympathetic to submandibular,
sublingual and lacrimal glands, and to
glands of the nasal and oral mucosa
• Sensory to external acoustic meatus
• Taste from anterior 2⁄3 of tongue
Vestibulocochlear • Vestibular division—conveys balance and
equilibrium information from inner ear
• Cochlear division—conveys auditory
information from inner ear
Glossopharyngeal • Motor to stylopharyngeus
• Parasympathetic to parotid gland
• Sensory to parotid gland, pharynx, carotid
body and sinus, and middle ear
• Taste and sensation from posterior 1⁄3 of
tongue
Vagus
• Motor to pharynx, palate (except tensor
palati), and superior part of esophagus
• Parasympathetic to thorax and abdomen to
mid-transverse colon
• Taste from palate and epiglottis
• Sensory to external acoustic meatus
Spinal accessory Motor to sternocleidomastoid and trapezius
Hypoglossal
Motor to muscles of tongue (except
palatoglossus)
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Inferior view
Eyeball
Olfactory bulb
Optic nerve (II)
Olfactory tract (I)
Optic tract
Optic chiasm
Lateral olfactory stria
Oculomotor
nerve (III)
Trigeminal nerve (V):
Ophthalmic nerve (V1)
Trochlear
nerve (IV)
Maxillary nerve (V 2)
Mandibular
nerve (V3)
Abducens
nerve (VI)
Trigeminal
ganglion
Facial
nerve (VII)
Pons
Hypoglossal
nerve (XII)
Vagus
nerve (X)
Vestibulocochlear
nerve (VIII)
Accessory
nerve (XI)
Glossopharyngeal
nerve (IX)
Medulla
oblongata
Spinal cord
Ventral root of
1st spinal nerve
FIGURE 7-1. Cranial nerves, inferior view. (Asset provided by
Anatomical Chart Company.)
Clinical Significance
Trigeminal Nerve
Trigeminal neuralgia (tic douloureux) is a sensory disorder
of the trigeminal nerve of unknown cause. The result is
excruciating pain over the face.
Facial Nerve
Injury to the facial nerve produces paralysis of the facial
musculature (Bell’s palsy) on the ipsilateral side, causing the
face to droop.
Meninges
The meninges support and protect the brain and cranial
nerve roots. They form the subarachnoid space for cerebrospinal fluid.
From superficial to deep, they are the:
■
■
■
dura mater
arachnoid mater
pia mater
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Meninges (continued)
Structure
Dura mater
Description
Separates into 2 layers:
periosteal and meningeal
in several areas—forming
dural sinuses and dural
folds (meningeal layer)
Epidural
space
Subdural
space
Potential space between
cranium and dura mater
• Potential space
between the dura and
arachnoid mater
• Filled with a loosely
adhered cell layer
Middle meningeal layer
Arachnoid
mater
Arachnoid
granulations
Significance
• Tough, fibrous layer
• Separated from cranium by
epidural space
• Dural sinuses are blood-filled
channels between the periosteal
and meningeal layers of dura
• Meningeal dura is continuous
with the dura mater of the
spinal cord
Site of epidural hematoma when
trauma causes bleeding into space
Site of subdural hematoma when
trauma causes bleeding into
space
Encloses the subarachnoid space
Evaginations of arachnoid Convey cerebrospinal fluid from
through the dura into the subarachnoid space into the
superior sagittal sinus where it
superior sagittal sinus
mixes with the venous blood
Subarachnoid Between arachnoid mater • Contains cerebrospinal fluid,
arachnoid trabeculae, and vessels
and pia mater
space
• Irregular enlargements form
cisterns
Connective tissue strands Span the subarachnoid space
Arachnoid
that connect the
trabeculae
arachnoid and pia mater
• Delicate inner layer in Invests spinal blood vessels and
Pia mater
the roots of the spinal nerves
contact with the
surface of the brain
• Deep to the
subarachnoid space
Clinical Significance
Vascular and Nerve Supply
The dura mater receives its arterial supply primarily from
the middle meningeal artery; the veins of the dura follow
the arterial branches.The dura mater has rich sensory innervation primarily from the branches of CN V.
Headache
Stretching of the dura mater is a common cause of headaches,
as it is sensitive to pain.
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Dural folds
Dural folds are formed where the dura mater separates into
two layers: periosteal and meningeal.
Structure
Cerebral falx
Cerebellar
falx
Cerebellar
tentorium
Feature
• Infolding of
meningeal layer
of dura mater as
it reflects away
from periosteal
layer
• Supports and
protects the brain
• Possess dural
sinuses in
margins attached
to periosteal
layer of dura
Sellar
diaphragm
Significance
• Lies in longitudinal fissure of brain
• Separates cerebral hemispheres
• Superior sagittal sinus lies in
attached edge, inferior sagittal sinus
lies in inferior free edge; attaches to
cerebellar tentorium
• Separates cerebellar hemispheres
• Occipital sinus lies in attached edge
• Forms a roof over the cerebellum,
separating it from the occipital lobe
of the cerebrum
• Divides cranial cavity into supra- and
infratentorial compartments
• Anteromedial deficiency—tentorial
incisure, allows passage of the
brainstem
• Straight sinus lies in edge attached
to cerebral falx
• Forms roof over hypophysial fossa
• Stretches between clinoid processes
• Central deficiency—allows
infundibulum to pass through
• Cavernous and intercavernous
sinuses lie at edges
Additional Concept
Dural sinuses
Dural sinuses are found along the attached edge of dural
folds, most often between the periosteal and meningeal layers of dura mater.
Sinus
Superior
sagittal
Feature
• Endotheliallined venous
channels in the
attached edge
of dural folds,
between the
layers of dura
mater
Significance
• Lies in superior, attached edge of cerebral falx
• Receives CSF from arachnoid
granulations
• Lateral extensions—lateral lacunae also
receive CSF
• Conveys contents to confluens of the
sinuses
(continued)
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Dural sinuses (continued)
Sinus
Inferior
sagittal
Straight
Feature
• Receive cerebral veins and
convey venous
blood and
cerebrospinal
fluid (CSF) to
the internal
jugular vein
Significance
• Lies in the inferior, free edge of cerebral
falx
• Conveys contents to straight sinus
• Formed by union of inferior sagittal sinus
and great cerebral vein
• Found in the attachment between the
cerebral falx and cerebellar tentorium
Confluence
• Receives blood from straight and superior sagittal sinuses, conveys blood to
transverse sinuses
• Located near the internal occipital protuberance
Transverse
Pass laterally from confluence of sinus,
convey blood to sigmoid sinuses
Sigmoid
• Continuation of transverse sinuses
• Continuous with internal jugular vein at
jugular foramen
Petrosal
(superior
and inferior)
• Both drain cavernous sinus
• Superior—located in anterolateral
attached edge of cerebellar tentorium,
drains to junction of transverse and sigmoid sinuses
• Inferior—drains into internal jugular
vein
Occipital
• Located in attached edge of cerebellar
tentorium
• Drains blood to the confluence of the
sinuses
Cavernous
• Located on either side of the sella turcica, associated with the sellar
diaphragm
• Communicates with ophthalmic veins
and pterygoid plexus
• Drains posteriorly via petrosal veins
• Walls of sinus contain V1, V2, CN III and
IV, sinus itself contains internal carotid
artery and CN VI
• Right and left sinuses connected anteriorly and posteriorly via intercavernous
sinuses
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Clinical Significance
Cavernous Sinus
Fractures of the cranial base may tear the internal carotid
artery as it passes through the cavernous sinus, first causing
compression of CN VI and subsequently the structures in
the wall of the sinus.
Ventricular system of the brain
The ventricular system of the brain is both the source and
pathway for the flow of cerebrospinal fluid (CSF). CSF acts as
a buffer, waste depository, and shock absorber for the brain.
Structure
Lateral (1st
and 2nd)
ventricles
3rd ventricle
Description
Significance
Cerebrospinal (CSF) flows • CSF is created by specialized
through interventricular
tufts of pia mater—choroid
foramina into 3rd ventricle
plexus, located in each of the
4 ventricles
CSF flows through cere• CSF is absorbed into the venous
bral aqueduct into 4th
system through arachnoid
ventricle
granulations—evaginations of
arachnoid mater into the superior sagittal sinus
4th ventricle CSF flows through a
median and 2 lateral
apertures to enter subarachnoid space
Subarachnoid CSF-filled space between • Surrounds brain
• Distended in areas to form
space
the arachnoid and pia
subarachnoid cisterns (e.g.,
mater
cerebellomedullary cistern (cisterna magna)—between the
medulla and cerebellum
Clinical Significance
CSF may be obtained for diagnostic purposes by a lumbar
puncture, or in the case of an infant from the cerebellomedullary cistern via a cistern puncture. Excessive cerebrospinal fluid dilates the brain ventricles (hydrocephalus)
and may cause thinning of the cerebral cortex and separation of the bones of the calvaria in infants.
Vasculature of the brain
(Figure 7-2)
Vessel
Arteries
Internal
carotid (2)
Origin/Termination
Supplies/Gives Rise To
Origin: common carotid;
• Give rise to ophthalmic,
enter skull through carotid
anterior, and middle cerebrals
(continued)
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Vasculature of the brain (continued)
Vessel
Vertebral (2)
Origin/Termination
canal, and pass through
cavernous sinus
Origin: subclavian; pass
through transverse
foramina of cervical
vertebrae and foramen
magnum to enter skull
Internal carotid
Supplies/Gives Rise To
• Primary supply to brain
• Give rise to basilar, posterior
inferior cerebellar, and anterior
spinal arteries
• Supply meninges, brain stem,
and cerebellum
Supply medial aspect of cerebral
Anterior
hemispheres
cerebral
Supply lateral aspect of cerebral
Middle
hemispheres
cerebral
Supply inferior aspect of cerebral
Posterior
Basilar
hemispheres
cerebral
• Gives rise to anterior inferior
Basilar
Vertebral
cerebellar, labyrinthine,
pontine, superior cerebellar,
and posterior cerebral arteries
• Supply brainstem, cerebellum,
and cerebrum
Forms part of cerebral arterial
Anterior
Anterior cerebral
circle
communicating
• Forms part of cerebral arterial
Posterior
Posterior cerebral
circle
communicating
• Supply cerebral peduncle,
internal capsule, and thalamus
Venous drainage is indirect, draining first to the dural sinuses, then to true
veins.
Additional Concept
The cerebral arterial circle (of Willis), is located at the base
of the brain and is the anastomosis between the vertebrobasilar and internal carotid systems. It is formed by the posterior
cerebral, posterior communicating, internal carotid, anterior
cerebral, and anterior communicating arteries.
Clinical Significance
Stroke
An artery supplying the brain can result in a stroke, cerebrovascular accident (CVA) and be evidenced by impaired
neurologic function. Occlusion can occur by an embolus
(clot) blocking arterial flow. Emboli can originate locally or
at some distance (the heart).
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Anterior
communicating
artery
Anterior
cerebral artery
Optic chiasm
Infundibulum
Circle of
Willis
Internal
carotid artery
Middle cerebral
artery
Posterior
communicating
artery
CNII
CNIII
Superior
cerebellar
artery
Pontine
arteries
Anterior inferior
cerebellar
artery
Posterior
cerebral
artery
CNVI
Basilar
artery
Labyrinthine
(internal auditory)
artery
Posterior
inferior
cerebellar
artery
Posterior
spinal
artery
Vertebral
artery
Anterior
spinal
artery
FIGURE 7-2. Circle of Willis. (From Dudek RW, Louis TM. HighYield Gross Anatomy. 3rd ed. Baltimore: Lippincott Williams &
Wilkins; 2008:270.)
FACE
Muscles of the face
(Figure 7-3)
Muscle
Occipitofrontalis—
frontal and
occipital
bellies
Proximal
Attachment
Frontal—
epicranial
aponeurosis
Occipital—
superior nuchal
line
Distal
Attachment Innervation
Frontal—skin Facial
of forehead
Occipital—
epicranial
aponeurosis
Main Actions
Elevates
eyebrows,
wrinkles skin
of forehead
(continued)
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Muscles of the face (continued)
Muscle
Proximal
Attachment
Distal
Attachment
Innervation
Main Actions
Orbicularis Margin of orbit,
oculi
medial palpebral
ligament, and
lacrimal bone
Skin around
margin of
orbit and
tarsal plates
Closes palpebral fissure
Corrugator Frontal bone
supercilii
Skin superior
to orbit
Wrinkles skin
above nose by
drawing eyebrows medially
Procerus
Nasal bone and Skin of
lateral nasal
forehead
cartilage
Wrinkles skin of
nose
Nasalis
Maxilla, nasal Alar cartilage,
bone, and lateral skin of forenasal cartilage head
Flares nostrils,
wrinkles skin of
nose
Levator
Maxilla
labii superioris alaeque nasii
Alar cartilage
Flares nostrils
Orbicularis Maxilla and
oris
mandible; skin
around mouth
Lips
Closes mouth,
protrudes lips
Levator
Maxilla
labii
superioris
Skin of upper
lip
Opens mouth;
elevates upper
lip
Depressor Platysma, body
labii inferi- of mandible
oris
Skin of lower
lip
Opens mouth;
depresses
angle of mouth
Buccinator Pterygomandi- Angle of
bular raphe;
mouth
alveolar processes of maxilla
and mandible
Presses cheek
against teeth to
keep food out
of oral vestibule
when chewing
Zygomati- Zygomatic bone
cus major
Opens mouth;
elevates angle
of mouth
Zygomaticus minor
Skin of upper
lip
Levator
Infraorbital
anguli oris maxilla
Angle of
mouth
(continued)
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Muscles of the face (continued)
Proximal
Attachment
Muscle
Distal
Attachment
Innervation
Main Actions
Depressor Base of mandible
anguli oris
Opens mouth;
depresses angle
of mouth
Risorius
Fascia of parotid
gland and skin of
cheek
Opens mouth
Platysma
Skin of supraMandible, skin
clavicular region of cheek and
mouth, orbicularis oris
Depresses
mandible,
tenses skin of
neck
Mentalis
Body of
mandible
Elevates skin of
chin; elevates
and protrudes
lower lip
Skin of chin
Supratrochlear
nerve
Procerus
Levator labii
superioris
alaeque nasii
Supraorbital
nerve
Zygomaticofacial nerve
Levator labii
superioris
Levator
anguli oris
Infraorbital
nerve
Masseter
Parotid
duct
Mentalis
Depressor
anguli oris
Mental
nerve
FIGURE 7-3. Anterior view of the face showing the cutaneous
branches of the trigeminal nerve, muscles of facial expression, and
eyelid (Image from Grant’s Atlas of Anatomy.)
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Vasculature of the face
(Figure 7-4)
Vessel
Arteries
Facial
Labial (superior
and inferior)
Lateral nasal
Angular
Superficial temporal
Transverse facial
Origin
Supplies/Gives Rise To
External carotid Face
Facial
Lips and nose
Nose
Nose and inferior eyelid
External carotid Lateral aspect of face and temporal region
Superficial
Face and parotid region
temporal
External carotid Back of head
Auricle and area posterior to auricle
Inferior alveolar Chin
Ophthalmic
Forehead and scalp
Occipital
Posterior auricular
Mental
Supraorbital
Supratrochlear
Venous drainage parallels arterial supply.
Lymphatics of the Head
Lymphatic vessels from the head drain into deep cervical
lymph nodes, which drain to the jugular lymphatic trunk.
Collections of lymphatic tissue—tonsils, are found near the
opening of the auditory tube—tubal tonsils, between the
anterior and posterior pillars of the oral cavity—palatine tonsils, on the posterior aspect of the tongue—lingual tonsils
and on the posterior aspect of the nasopharynx—pharyngeal
tonsils. Together these accumulations of lymphatic tissue
form Waldeyer’s Ring.
Nerves of the face
(Figure 7-3)
Nerve
Origin
Structures Innervated
Sensory
Branches of the Ophthalmic Nerve
Supraorbital
Frontal
• Anterolateral scalp and forehead
• Frontal sinus
• Upper eyelid
Supratrochlear
• Anteromedial scalp and forehead
• Upper eyelid
(continued)
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Nerves of the face (continued)
Nerve
Infratrochlear
Origin
Nasociliary
Lacrimal
Ophthalmic
External nasal
Structures Innervated
• Medial aspect of both eyelids
• Lacrimal sac and caruncle
• Lateral aspect of nose
• Conveys parasympathetics to the
lacrimal gland
• Conjunctiva and skin of upper eyelid
Majority of nose
Anterior
ethmoidal—
branch of
nasociliary
Branches of the Maxillary Nerve
Infraorbital
Maxillary
• Cheek, upper lip, lower eyelid
• Maxillary sinus and teeth
Zygomaticofacial
Zygomatic
Cheek
Zygomaticotemporal
Anterior aspect of temporal region
Branches of Mandibular Nerve
Buccal
Mandibular
• Cheek—skin and mucosa
• Buccal gingivae
Mental
Inferior
• Chin
alveolar
• Mucosa of lower lip
Auriculotemporal Mandibular—2 • Posterior aspect of temporal region
roots encircle • Anterior parts of ear, external auditory
middle meninmeatus and tympanic membrane
geal artery
• Conveys secretomotor fibers to the
parotid gland from the otic ganglion
Branches from Cervical Spinal Nerves
Great auricular
Anterior rami— • Angle of mandible
C2 and C3
• Lobe of ear
• Parotid sheath
Lesser occipital
Scalp posterior to ear
Greater occipital
Posterior
Scalp of occipital region
ramus—C2
3rd occipital
Posterior
Scalp of occipital and suboccipital
ramus—C3
regions
Motor
Branches of the
Facial (CN VII) Muscles of facial expression
facial nerve—
temporal,
zygomatic, buccal,
mandibular, and
cervical
Mandibular (V3)
Trigeminal
Muscles of mastication
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Additional Concept
Trigeminal Nerve
Branches of the trigeminal nerve (CN V) provide most
sensory innervation of the face. The three divisions of the
trigeminal nerve are the ophthalmic (V1), maxillary (V2),
and mandibular (V3) nerves.
TEMPORAL REGION
Temporal region structure
Structure
Description
Significance
Temporal fossa
• Bounded superiorly
and posteriorly
by superior and
inferior temporal lines
of the parietal
bones
• Floor formed by 4
bones that make up
the pterion
• Proximal attachment of
temporalis
• 4 bones forming pterion:
frontal, parietal, temporal,
and greater wing of
sphenoid
Infratemporal
fossa
• Bounded laterally by the
zygomatic arch and
mandible
• Medial border: lateral
pterygoid plate
• Found posterior to the
maxilla
Contains:
• Part of temporalis
• Medial and lateral
pterygoid muscles
• Pterygoid plexus of veins
• Maxillary artery
• Branches of mandibular
nerve
Additional Concept
The temporal region includes the temporal—superior to
the zygomatic arch and infratemporal fossae—inferior to
the zygomatic arch.
Clinical Significance
Mandibular Nerve
A needle is passed through the mandibular notch of
the mandible into the infratemporal fossa to anesthetize the mandibular nerve as it emerges from the cranial
cavity.
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Vasculature of the temporal region
Vessel
Arteries
Origin
Maxillary
External carotid Supplies structures of the temporal
region
Deep auricular
Maxillary—
1st part
Anterior tympanic
Supplies/Gives Rise To
Supplies external auditory meatus
Supplies tympanic membrane
Middle meningeal
Supplies dura mater
Inferior alveolar
• Supplies mandible, floor of mouth,
gingivae, and mandibular teeth
• Gives rise to mental—supplies
chin
Deep temporal
Muscular
(masseteric,
buccal and pterygoid branches)
Posterior superior
alveolar
Maxillary—
2nd part
Maxillary—
3rd part
Supplies temporalis
Supply masseter, buccinator and cheek,
and the medial and lateral pterygoids
Supplies posterior maxillary teeth and
gingivae
Infraorbital
• Supplies lower eyelid, lacrimal sac,
upper lip, and infraorbital region of
face
• Gives rise to anterior superior
alveolar—supplies anterior
maxillary teeth and gingivae
Descending
palatine
Supplies palate and gingivae
Pharyngeal
Supplies superior aspect of pharynx
Sphenopalatine
Supplies lateral nasal wall and
septum
Drains
Vessel
Veins
Termination
Pterygoid venous
plexus
Facial and
Structures in the infratemporal fossa
maxillary veins
Venous drainage generally parallels arterial supply in the temporal region.
Additional Concept
The maxillary artery is divided into 3 parts by its relation
to the lateral pterygoid muscle.
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Nerves of the temporal region
Nerve
Mandibular (V3)
Origin
Trigeminal
Structures Innervated
• Sensory to structures in the temporal
region
• Branches convey parasympathetic fibers
• Motor to muscles of mastication
Buccal
Mandibular
• Cheek—skin and mucosa
• Buccal gingivae
Auriculotemporal
• Posterior aspect of temporal region
• Anterior parts of ear, external auditory meatus, and tympanic membrane
• Conveys secretomotor fibers to the
parotid gland from the otic ganglion
Inferior alveolar
• Forms inferior dental plexus that
innervates mandibular teeth
• Emerges from mental foramen as
mental nerve
Lingual
• Anterior 2⁄3 of tongue and lingual
gingivae
• Conveys secretomotor fibers to the
submandibular ganglion and submandibular and sublingual glands
• Conveys special sense of taste from
anterior 2⁄3 of tongue to chorda tympani
Nerve to mylohyoid Inferior alveolar Mylohyoid
Chorda tympani
Facial
• Receives taste fibers from anterior
2
⁄3 of tongue from lingual nerve
• Conveys presynaptic parasympathetics from CN VII to lingual nerve
Otic ganglion
Innervated by Postsynaptic fibers ride on the auriculoinferior saliva- temporal nerve to innervate the parotid
tory nucleus
gland
PTERYGOPALATINE FOSSA
Pterygopalatine fossa
The pterygopalatine fossa is a small, inverted rain drop
shaped fossa, which is positioned for access to multiple areas
of the head for distribution of neurovascular elements.
Structure
Overall
Description
Borders:
• Superior—greater wing
of sphenoid
Significance
Openings and communications:
• Superior/anterior—orbit
through inferior orbital fissure
(continued)
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Pterygopalatine fossa (continued)
Structure
Description
• Anterior—maxilla
• Inferior—pyramidal
process of palatine
• Medial—perpendicular
plate of palatine
• Lateral—continuous with
infratemporal fossa
Contents
Maxillary nerve
Pterygopalatine ganglion
Maxillary artery
Significance
• Inferior/posterior—middle
cranial fossa through foramen
rotundum
• Medial—nasal cavity through
sphenopalatine foramen
• Lateral—infratemporal fossa
through pterygomaxillary
fissure
• Enters fossa via foramen
rotundum
• Gives off zygomatic nerve in
fossa—conveys postsynaptic
parasympathetic fibers from
pterygopalatine ganglion to
lacrimal nerve—to lacrimal
gland
• Gives off pterygopalatine
nerves that suspend pterygopalatine ganglion—convey
general sense through ganglion to branches of V2—supply
nasal and oral cavities
• Leaves fossa via infraorbital
fissure and changes name to
infraorbital nerve
• Parasympathetic ganglion
• Presynaptic innervation is from
superior salivatory nucleus via
the greater petrosal nerve—
a branch of CN VII
• Greater petrosal joins the
deep petrosal—sympathetic,
to form the nerve of the pterygoid canal
• Autonomics leave ganglion to
innervate lacrimal, nasal, and
oral cavity glands
• Enters fossa via pterygomaxillary fissure
• Gives rise to following branches
in fossa:
1. Posterior superior alveolar
2. Descending palatine
3. Sphenopalatine
4. Infraorbital—gives rise to
anterior superior alveolar in
infraorbital canal
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ORAL REGION
Oral region
(Figure 7-4)
The oral region includes the oral cavity, which extends to
the palate superiorly and the palatopharyngeal fold posteriorly, tongue, teeth, and gingivae (gums). The oral cavity
receives ingested substances, begins digestion, and forms a
bolus that can be swallowed.
Structure
Description
Oral vestibule Space between the teeth
and gingivae and the lips
Oral cavity
proper
Gingivae
(gums)
Teeth
Significance
• Oral fissure—space between
upper and lower lips, size
varies by orbicularis oris and
labial muscles
• Lips—muscular folds
surrounding oral fissure; upper
lip sensory by V2, lower by V3;
philtrum—vertical groove in
upper lip
• Cheeks—contain buccinator
muscles that function to keep
food out of oral vestibule
between the occlusal surfaces
of teeth
• Continuous posteriorly with the
Space contained within
oropharynx
superior and inferior dental
• Space occupied by the tongue
arches—formed of the
maxillary and mandibular
alveolar processes that
contain the teeth
• Mandibular gingivae innervated
• Mucous membrane
by buccal and lingual nerves
covered fibrous tissue
• Maxillary gingivae innervated
• Adherent to alveolar
by greater palatine,
processes and necks of
nasopalatine, and superior
teeth
alveolar nerves—anterior,
middle, and posterior
• Used in mastication
• Hard, enamel-covered
• 20 deciduous teeth in children
• Set in alveolar
• Maxillary teeth innervated by
processes of maxilla
superior dental plexus, formed
and mandible
by branches of V2
• Possess crown, root,
and neck
• Mandibular teeth innervated by
• 32 total in adult: 6
inferior dental plexus, formed
molars, 4 premolars, 2
by branches of V3
canine, and 4 incisors
in each dental arch
(continued)
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Oral region (continued)
Structure
Tongue
Description
• Muscular organ, mostly
contained within oral
cavity proper
• Divided into right and
left halves by midline
groove
• Possesses:
• Root—posterior 1⁄3
• Body—anterior 2⁄3
• Apex—tip
• Dorsum—site of
lingual papillae:
vallate, foliate,
filiform and fungiform
• Inferior surface—has
lingual frenulum
Palate
• Forms roof of oral
cavity and floor of nasal
cavities
• Hard palate—bony
anterior portion, formed
by palatine processes
of maxilla and
horizontal plates of
palatine bones
• Soft palate—moveable
posterior portion of
palate; anterior part—
composed of palatine
aponeurosis, posterior
part—muscular
• Articular disk with anterior and
• Synovial joint
posterior bands divides the
joint cavity into 2 separate
compartments
Temporomandibular
joint
Significance
• Functions in mastication,
deglutition, articulation and
taste
• V-shaped groove on dorsum—
terminal groove divides
tongue into anterior 2⁄3 and
posterior 1⁄3 parts, center of
groove possesses small pit—
foramen cecum that was the
opening of the thyroglossal
duct in the embryo
• Vallate, foliate, and fungiform
papillae have taste buds
• Lingual frenulum connects
tongue to floor of mouth
• Innervation:
• Motor—hypoglossal to all
muscles except
palatoglossus: pharyngeal
plexus
• Sensory to anterior 2⁄3:
general sense—lingual,
taste—chorda tympani
• Posterior 1⁄3: general sense
and taste—
glossopharyngeal
• Blood supply: lingual artery,
veins parallel arteries
• Hard palate has 3 foramina:
1. Incisive fossa: conveys
nasopalatine nerve to
anterior aspect of hard palate
2. Greater palatine foramen:
conveys greater palatine
vessels and nerves to
posterior aspect of hard palate
3. Lesser palatine foramen:
conveys lesser palatine vessels
and nerves to soft palate
• Soft palate: uvula assists in
closing oropharynx from
nasopharynx during swallowing
(continued)
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Oral region (continued)
Structure
Description
Significance
• Joint supported by a strong
• Between head of
lateral ligament—a
mandible with
thickening of the joint capsule
mandibular fossa and
and by 2 extrinsic ligaments:
articular tubercle of the
(1) stylomandibular
temporal bone
ligament and (2) sphenomandibular ligament
• Movements: elevation,
depression, protrusion,
retrusion, and side-to-side
grinding movements
Clinical Significance
Temporomandibular Joint
The temporomandibular joint may become arthritic, leading to problems with dental occlusion and joint clicking
(crepitus).
Frontal sinus
Nasal
conchae
Hypophysial fossa
Sphenoid sinus
Pharyngeal tonsil
Hard
palate
Auditory tube
Palatoglossal
arch
Genioglossus
Palatine tonsil
Geniohyoid
Palatopharyngeal
arch
Mandible
Epiglottis
Vestibular fold
Ventricle
Vocal fold
FIGURE 7-4. Nasopharynx, oropharynx, and laryngopharynx.
(From Moore KL, Agur AMR. Essential Clinical Anatomy. 3rd ed.
Baltimore: Lippincott Williams & Wilkins; 2007:621.)
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Deep Lingual Veins
The deep lingual veins on the inferior surface of the tongue
provide a rapid entry for drugs, such as nitroglycerin for
treatment of angina pectoris.
Tongue Tied
An overlarge lingual frenulum (tongue tie) interferes with
tongue movement and speech. Frenectomy may be performed to free the tongue.
Salivary glands
There are three pairs of salivary glands:
■
■
■
parotid
submandibular
sublingual
All glands received secretomotor fibers from the parasympathetic nervous system. They function to produce saliva,
which binds ingested foot into a bolus and begin the digestive process.
Gland
Parotid
Description
• Possesses tough fascial
sheath—parotid sheath
• Located anteroinferior to
external auditory meatus
• Parotid duct passes
anteriorly to convey
secretions into the oral
cavity near the 2nd maxillary
molar
Submandibular • Located deep to body of
mandible
• Submandibular duct
passes anteriorly to convey
secretions into the oral
cavity on the surface of
sublingual papilla—
located on either side of the
lingual frenulum
• Located between the
Sublingual
mandible and genioglossus
muscle in floor of mouth
• Convey secretions into oral
cavity via multiple
sublingual ducts
Significance
• Parasympathetic
innervation from cells in
otic ganglion reach
target via
auriculotemporal nerve
• Sympathetic innervation
from carotid plexus
inhibit secretion
• Sensory innervation via
auriculotemporal nerve
• Parasympathetic
innervation from cells in
the submandibular
ganglion reach target
via the lingual nerve
• Sympathetic innervation
from carotid plexus
inhibit secretion
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Clinical Significance
Sialography
In a sialography, contrast is injected into the submandibular
duct to reveal the duct and some of the secretory units of the
gland.
Muscles of mastication
Proximal
Muscle Attachment
Temporalis Temporal fossa
Masseter
Zygomatic arch
Medial
pterygoid
Medial surface
of lateral
pterygoid plate
Lateral
pterygoid
Lateral surface
of lateral
pterygoid plate
Distal
Main
Attachment Innervation Actions
Mandibular Elevate and
Coronoid
retract mandible
process of
mandible
Elevate
Lateral aspect
mandible
of angle and
ramus of
mandible
Elevate
Medial aspect
mandible,
of angle and
produces sideramus of
to-side grinding
mandible
motion
Protrudes
Disk of
mandible, sidetemporomandi
to-side grinding
bular joint and
motion
condyloid
process of
mandible
Additional Concept
The masseter and medial pterygoid essentially form a
sling attached to the angle of the mandible that elevates the
mandible.
Extrinsic muscles of the tongue
(Figure 7-4)
Extrinsic
Proximal
Muscle
Attachment
Genioglossus Superior
mental
spine of
mandible
Hyoglossus
Hyoid bone
Distal
Attachment
Dorsum of
tongue and
hyoid
Main
Innervation Actions
Hypoglossal Depresses,
protrudes and
moves tongue
from side to
side
Depresses and
Lateral aspect
retrudes tongue
of tongue
(continued)
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CLINICAL ANATOMY FOR YOUR POCKET
Muscles of the tongue (continued)
Extrinsic
Muscle
Styloglossus
Proximal
Distal
Attachment Attachment
Styloid
process
Dorsum of
Palatoglossus Palatine
aponeurosis tongue
Main
Innervation Actions
Retrudes
tongue,
elevates sides
Pharyngeal Draws soft
plexus
palate and
tongue together
Additional Concept
The intrinsic muscles of the tongue—superior and inferior longitudinal, transverse, and vertical—have no bony
attachments and function to alter the shape of the tongue;
they are all innervated by the hypoglossal nerve. The
extrinsic muscles of the tongue alter the position of the
tongue.
Muscles of the palate
Muscle
Tensor
palati
Proximal
Attachment
Scaphoid fossa
between medial
and lateral
pterygoid plates
Levator
palati
Cartilage of
auditory tube
Distal
Attachment
Palatine
aponeurosis
Palatoglos- Palatine
aponeurosis
sus
Tongue
Palatopharyngeus
Pharynx
Musculus
uvulae
Uvula
Main
Innervation Actions
Mandibular • Tenses soft
(V3)
palate and
opens auditory tube
during swallowing
• Changes
direction of
pull by wrapping around
hamulus of
medial pterygoid plate
Pharyngeal Elevates soft
palate
plexus
Draws soft
palate and
tongue together
Tenses soft
palate, elevates
pharynx
Elevates uvula
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Additional Concept
The palatoglossus and palatopharyngeus are covered by
mucosa and are often referred to as the anterior and posterior pillars in dentistry. Between them lies the tonsillar fossa
for the palatine tonsil.
NOSE AND EAR
Nose
(Figure 7-4)
The nasal apparatus includes the external nose, nasal cavities, and paranasal air sinuses. It functions in olfaction, respiration, filtration and humidification of inspired air.
Structure
Description
External nose • Composed of a dorsum
(bridge) and apex (tip)
• Nares (nostrils)—are
bounded laterally by the
alae of the nose and
medially separated by the
nasal septum; open into
the nasal cavities
• Possesses bony and
cartilaginous parts
Nasal cavities • Mucosal-lined cavities
separated by nasal
septum
• Superior 1⁄3 is
olfactory—contains
olfactory receptor cells
• Inferior 2⁄3 is respiratory
• Arterial supply:
sphenopalatine,
ethmoidal (anterior and
posterior), greater palatine, superior labial,
and branches of the
facial arteries
• Veins parallel the arteries
• Sensory innervation is
via nasopalatine,
greater palatine, and
anterior ethmoidal
nerves
Significance
• Bony skeleton:
• Nasal bones
• Frontal bone—nasal part
and nasal spine
• Nasal septum
• Maxillae—frontal process
• Cartilaginous skeleton:
• Lateral cartilages (2)
• Alar cartilages (2)
• Septal cartilage
• Nasal septum composed of:
perpendicular plate of ethmoid,
vomer, and septal cartilage
• Lateral walls possess
superior, middle, and
inferior nasal conchae—act
as turbinates
• Spaces inferior to conchae—
superior, middle, and
inferior meatuses
• Space superior to superior
concha is sphenoethmoidal
recess
• The nasal cavities are
continuous with the
nasopharynx posteriorly at the
choanae
(continued)
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Nose (continued)
Structure
Paranasal
sinuses
Description
Extensions of the nasal
cavity into the surrounding bones:
• Frontal
• Ethmoidal—divided
into anterior, middle,
and posterior air cells
• Sphenoidal
• Maxillary
Significance
Function as resonant chambers
for the voice and in lightening the
skull
Clinical Significance
Bloody Nose
Kiesselbach’s area is an area on the anterior aspect of the
nasal septum where all five arteries supplying the nasal cavity anastomose. It is an area from which may come profuse
bleeding.
Deviated Septum
The nasal septum is usually deviated to one side or the
other, either naturally or as a result of trauma. Deviation can
be corrected if it is severe and interferes with breathing or
exacerbates snoring.
Additional Concept
The meatuses and sphenoethmoidal recess are spaces
that communicate with sinuses where structures empty into
the nasal cavity:
■
■
■
■
sphenoethmoidal recess: sphenoid sinus
superior meatus: posterior ethmoid air cells
middle meatus: middle ethmoid air cells onto the ethmoid
bulla—an expanded ethmoid air cell in the meatus; anterior ethmoid air cell and maxillary sinus into the semilunar hiatus—a depression surrounding the ethmoid bulla;
frontal sinus via frontonasal duct into the infundibulum—
leads to the semilunar hiatus
inferior meatus: nasolacrimal duct
Ear
(Figure 7-5)
The ear is divided into external, middle, and inner parts.
The external and middle ear transfer sound to the inner ear.
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The inner ear contains the organs of hearing and equilibrium.
Part
Description
External • Composed of auricle
and external auditory
meatus—bony cartilaginous S-shaped tube
• Innervated primarily by
auriculotemporal and
great auricular nerves
• Arterial supply: posterior auricular and
superficial temporal
arteries
• Veins parallel arteries
Middle • Air-filled chamber
between the tympanic
membrane and inner ear
• Connected to nasopharynx by auditory tube
and mastoid air cells
through aditus
• Contains malleus,
incus, and stapes
• Stapedius and tensor
tympani connect to
stapes and malleus,
respectively
• Chorda tympani travels through middle ear
cavity
• Spiraling series of periInner
lymph-containing channels through the petrous
part of temporal bone—
bony labyrinth contains
endolymph-filled membranous labyrinth
• Organs of membranous
labyrinth: saccule, utricle, semicircular canals
(3), and cochlea
• Cochlea is innervated
by the cochlear division
of CN VIII
• Saccule, utricle, and
semicircular canals are
innervated by the
vestibular division of
CN VIII
Significance
• Auricle funnels sound into external
auditory meatus
• External auditory meatus:
• Ends at tympanic membrane
(eardrum)—border between
external and middle ear
• Filled with hairs and cerumen (wax)
• Auditory tube equalizes middle ear
pressure with atmospheric pressure
for optimal hearing
• Tympanic membrane vibrations are
transferred along the malleus, incus
and stapes—the movement of the
stapes in the oval window transfers
the vibration to the inner ear
• Stapedius and tensor tympani
dampen sound—innervation:
stapedius—CN VII, tensor tympani—
CN V
• Saccule and utricle: located in
vestibule of bony labyrinth; contain
macula—receptor organ that
responds to changes in head position
• Semicircular canals: 3 on each
side, contain crista ampullari—
receptor organs that respond to
head acceleration
• Cochlea: transduces vibrations of
stapes in oval window to excitation
of CN VIII using organ of Corti—
receptor organ of membranous
labyrinth for hearing
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Incus
Malleus
Tympanic
membrane
Stapes
Semicircular
canals
Vestibular
nerve
Auricle
Cochlear
nerve
Vestibulocochlear
nerve
External
acoustic
meatus
Internal acoustic
meatus
Cochlea
Opening of
external
acoustic
meatus
Auriculotemporal
nerve
Anterior view
Parotid gland
Pharyngotympanic
tube
FIGURE 7-5. Anatomy of ear. (From Dudek RW, Louis TM.
High-Yield Gross Anatomy. 3rd ed. Baltimore: Lippincott Williams &
Wilkins; 2008:302.)
Clinical Significance
Ear Infection
Otitis media, an infection of the middle ear cavity, can be
secondary to an upper respiratory tract infection. The
bulging, red tympanic membrane may perforate as a result
of pressure from infection or trauma.
ORBIT
Orbit structure
(Figures 7-3 and 7-6)
The orbits are a pair of bony, pyramidal-shaped cavities in
the face that contain:
■
■
■
■
eye
extraocular muscles
lacrimal apparatus
neurovascular elements
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Orbit structure (continued)
Structure
Orbit
Palpebrae
(eyelids)
Eye
Description
Bony walls:
• Superior—orbital part
of frontal and lesser
wing of sphenoid
• Inferior—maxilla and
zygomatic and palatine
• Medial—ethmoid and
frontal, lacrimal and
sphenoid
• Lateral—frontal process
of zygomatic and greater
wing of sphenoid
Apex: optic canal
Base: orbital margin
• Outer surface—thin skin
• Inner surface—palpebral conjunctiva
• Middle—orbicularis
oculi and tarsal plates:
superior and inferior
and tarsal glands
• Medial and lateral
palpebral ligaments
attach tarsal plates to
orbit
• Eyelashes and ciliary
glands
• Lacrimal puncta open
on summit of lacrimal
papilla on the upper
and lower eyelids
• Orbital septum—an
extension of periosteum
that connects to the
tarsal plates
• 3 layers of eyeball:
1. Outer—fibrous:
sclera and cornea
2. Middle—vascular:
choroid, ciliary body
composed of ciliaris
and ciliary processes
and iris that contains
dilator pupillae and
sphincter pupillae
Significance
• Superior wall contains fossa
for lacrimal gland
• Medial wall contains lacrimal
groove and fossa for lacrimal
sac
• Inferior wall is separated from
lateral by inferior orbital fissure,
which conveys the continuation
of the maxillary nerve
• Optic canal conveys the optic
nerve (CN II)
• Overall: the eyelids protect and
moisten the eye, sweeping
lacrimal secretions inferomedially toward medial canthus of
eye
• Tarsal plates strengthen eyelids and act as skeleton; the
superior tarsal muscle attaches
to superior tarsal plate
• Tarsal glands associated with
tarsal plates secrete lipids to
prevent eyelids from sticking
together and leaking of
lacrimal fluid
• Palpebral ligaments provide
attachment for orbicularis oculi
• Orbital septum helps stop the
spread of infection and maintains the orbital fat in place
• Outer layer: sclera—white,
opaque posterior 5⁄6, fibrous
skeleton of eye; cornea—
anterior 1⁄6, transparent, avascular part of refractive media
• Middle layer: choroid—contains blood vessels; ciliary
body—contraction of ciliaris
by CN III parasympathetics
produces accommodation,
ciliary processes secrete
(continued)
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Orbit structure (continued)
Structure
Lacrimal
apparatus
Description
Significance
aqueous humor and via
3. Inner—retina:
suspensory ligaments hold the
divided into outer
lens; iris—continually varies
pigmented layer and
in size to alter size of pupil,
inner neural layer
dilator under sympathetic con• Spaces within eyeball
trol, and sphincter under
divided into 3 parts:
parasympathetic control (CN III)
1. Anterior chamber—
between cornea and • Inner layer: retina inner neural
layer contains photoreceptors
iris
and the ganglion cells that form
2. Posterior chamber—
CN II, ends anteriorly at ora
between iris and lens
serrata; area of highest visual
3. Vitreous body—fills
acuity—macula lutea the cenarea posterior to lens
ter of which has a small pit—
• Lens—flexible avascular
fovea centralis, located at the
part of refractive media
center of the visual axis; optic
of eye; surrounded by
disk is a blind spot medial to
lens capsule that is
macula lutea where CN II
tensed by suspensory
leaves the eye and the central
ligaments
artery of the retina enters
• Lacrimal glands—produce
• Lacrimal glands—
lacrimal secretions (tears);
located in the fossa for
secretomotor from facial nerve
the lacrimal gland
parasympathetics, sympathet• Lacrimal ducts—
ics inhibit production
empty into superior
• Lacrimal ducts—convey
fornix
lacrimal secretions to conjunc• Lacrimal canaliculi
tival sac
convey tears to the
lacrimal sac via capil- • Lacrimal sac is the dilated
proximal end of the
lary action
nasolacrimal duct that conveys lacrimal secretions to the
inferior nasal meatus
Additional Concept
Conjunctiva
The conjunctiva is a mucous membrane that is loosely
adherent to the sclera, known as bulbar conjunctiva, where
it is invested with blood vessels and on the inner surface of
the eyelids as palpebral conjunctiva. At the medial canthus of the eye—the junction of the upper and lower eyelids
on the medial side, the remnant of a human nictitating
membrane is evident as a semilunar fold of conjunctiva. The
semilunar fold lines the lacrimal lake, at the center of
which is an elevation, the lacrimal caruncle that functions
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Branches of retinal vessels
Macula
Optic disc
FIGURE 7-6. Retina. (From Dudek RW, Louis TM. High-Yield Gross
Anatomy. 3rd ed. Baltimore: Lippincott Williams & Wilkins; 2008:298.)
to push the lacrimal secretions to the edge of the lake so that
they can be removed by lacrimal canaliculi. The lines of
reflection between bulbar and palpebral conjunctiva are the
superior and inferior fornices. The conjunctiva line a sac,
the conjunctival sac the opening of which is the palpebral
fissure—the space between the upper and lower eyelids. It
is into this sac that contact lenses are inserted and eyedrops
deposited and into the superior fornix of the sac where
lacrimal secretions are emptied via excretory ducts.
Clinical Significance
Blowout Fracture
A blow to the orbit is most likely to fracture the relatively
thin inferior and medial walls, leading to a blowout fracture
with the stronger bony margin intact.
Exophthalmos
Tumors within the orbit or deposition of retrobulbar fat (as
in Grave’s disease) produce exophthalmos or protrusion of
the eye.
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Conjunctivitis
The conjunctiva is colorless except when its vessels are
dilated (bloodshot eyes) or inflamed from infection (conjunctivitis, or pinkeye).
Extraocular muscles
(Figures 7-7 and 7-8)
Proximal
Muscle Attachment
Lesser wing of
Levator
palpebrae sphenoid
superioris
Superior
rectus
Common tendinous ring
Distal
Attachment
Superior tarsal
plate, skin of
upper eyelid
Innervation
Oculomotor
and sympathetics—
superior
tarsal muscle
Anterior hemi- Oculomotor
sphere of
sclera
Inferior
rectus
Medial
rectus
Lateral
rectus
Superior
oblique
Inferior
oblique
Abducens
Sphenoid
Anterior aspect
of floor of orbit
Passes anteri- Trochlear
orly through
trochlea,
changes direction and
attaches to
posterior
hemisphere of
sclera
Oculomotor
Posterior
hemisphere of
sclera
Main
Actions
Elevate upper
eyelid
Elevates,
adducts, and
medially
rotates eye
Depresses,
adducts, and
laterally rotates
eye
Adducts eye
Abducts eye
Depresses,
abducts, and
medially
rotates eye
Elevates,
abducts, and
laterally rotates
eye
Additional Concept
Superior Tarsal Muscle
The anterior-most fibers of levator palpebrae superioris
are smooth muscle—the superior tarsal muscle. This
smooth muscle component is primarily responsible for
keeping the upper eyelid raised.
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Levator palpebrae
superioris
Superior oblique
233
Superior
rectus
Optic nerve in sheath
transversing optic canal
Tendinous ring
Superior orbital fissure
Oculomotor nerve
(CN III)
Trochlear
nerve
(CN IV)
Pons
Inferior
oblique
Abducent
nerve
(CN VI)
Trigeminal
ganglion
(CN V)
Medial
rectus
Lateral
rectus
Ciliary
ganglion
Inferior
rectus
FIGURE 7-7. Innervation of muscles of eyeball.The oculomotor (CN
III), trochlear (CN IV), and abducent (CN VI) nerves are distributed
to the muscles of the eyeball. The nerves enter the orbit through the
superior orbital fissure. CN IV supplies the superior oblique, CN VI
supplies the lateral rectus, and CN III supplies the remaining five muscles. (From Moore KL, Dalley AF. Clinically Oriented Anatomy. 5th ed.
Baltimore: Lippincott Williams & Wilkins; 2006:970.)
IO
IO
LR
MR MR
LR
SO
IR
IR
Adduction
Abduction
SO
Elevation
Abduction
Adduction
SR SR
Depression
Depression
Elevation
Abduction
Abduction
FIGURE 7-8. Eye movements. Large arrows indicate the direction
of eye movements caused by the various extraocular muscles. Small
arrows indicate either intorsion (medial rotation of the superior pole
of the eyeball) or extorsion (lateral rotation of the superior pole of
the eyeball). IO ⫽ inferior oblique, LR ⫽ lateral rectus, SO ⫽ superior oblique, MR ⫽ medial rectus, IR ⫽ inferior rectus. (From
Dudek RW, Louis TM. High-Yield Gross Anatomy. 3rd ed. Baltimore:
Lippincott Williams & Wilkins; 2008:289.)
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Clinical Significance
Eye Movements
The medial walls of the orbits are parallel; therefore, the axis
of the eye is not in line with the axis of the orbit. The recti
muscles attach via a common tendinous ring at the apex of
the orbit and so produce unwanted movements of the eye
when they contract—adduction and rotation. The superior
and inferior oblique muscles offset the rotation and adduction of the eye by the recti to get a more straightforward elevation or depression.
Fascial Sheath of the Eyeball
The eye is surrounded by the fascial sheath of the eyeball,
which forms a “socket” into which the eyeball sits and that
is attached to and pierced by the extraocular muscles.
Extensions of the sheath are attached to the orbit as medial
and lateral check ligaments that limit adduction and
abduction of the eye. The check ligaments blend with the
fascia of the inferior rectus and inferior oblique muscles to
form the suspensory ligament of the eyeball, a hammocklike sling that supports the eye.The fascial sheath of the eyeball forms the socket into which a prosthetic eye is inserted,
still allowing for relatively natural movement because of the
connection to the extraocular muscles.
Mnemonic
To recall the innervation pattern of the extraocular muscles
use this “formula”:
[SO4LR6]3 Superior Oblique by CN IV; Lateral Rectus by
CN VI and all the rest by CN III.
Vasculature of the orbit
Vessel
Arteries
Ophthalmic
Origin
Supplies/Gives Rise To
Internal carotid
Central artery
of the retina
Supraorbital
Supratrochlear
Dorsal nasal
Ophthalmic
Supplies structures of orbit, face,
and scalp
Supplies retina
Supplies forehead and scalp
Supplies nose
(continued)
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Vasculature of the orbit (continued)
Vessel
Lacrimal
Ethmoidal (anterior
and posterior)
Posterior ciliary
(short and long)
Anterior ciliary
Vessel
Veins
Scleral venous
sinus
Vorticose
Central vein
of the retina
Superior
ophthalmic
Inferior
ophthalmic
Origin
Supplies/Gives Rise To
Supplies eyelids, conjunctiva, and
lacrimal gland
Supplies ethmoidal air cells and
nasal cavity
Supplies middle layer of eye
Termination
Drains
Vorticose vein
Aqueous humor from anterior
chamber
Middle layer of eye
Retina
Ophthalmic veins
Cavernous sinus or
inferior ophthalmic
vein
Cavernous sinus and Eye and orbit
the inferior
ophthalmic also
drains into the pterygoid venous plexus
Nerves of the orbit
(Figure 7-7)
Nerve
Frontal
Origin
Ophthalmic
Nasociliary
Ethmoidal
(anterior and
posterior)
Long ciliary
Ophthalmic
Nasociliary
Structures Innervated
Upper eyelid, scalp, and forehead via two
terminal branches—supraorbital and
supratrochlear
Eye, face, and nasal cavity
Sphenoid and ethmoid air cells and
nasal cavity
• Eye
• Conveys sympathetics to iris and sensation from cornea
Ciliary ganglion • Eye
Short ciliary
• Conveys sympathetics and parasympathetics from CN III to iris and ciliaris
• Conveys parasympathetics to the
Ophthalmic
Lacrimal
lacrimal gland from V2
• Conjunctiva and skin of upper eyelid
• Presynaptic parasympathetics are conCiliary ganglion Innervated by
veyed via CN III
accessory oculo• Postganglionics are conveyed via
motor nucleus
short ciliary nerves to ciliaris and
sphincter pupillae
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PARASYMPATHETIC GANGLIA IN THE HEAD
Parasympathetic ganglia in the head
Ganglia
Ciliary
Afferents
Accessory oculomotor
nucleus via CN III
Otic
Inferior salivatory nucleus
via CN IX
Pterygopalatine Superior salivatory
nucleus via CN VII
branch—greater petrosal
nerve
Submandibular Superior salivatory
nucleus via CN VII
branch—chorda tympani
Efferents
Postsynaptics innervate sphincter
pupillae and ciliaris
Postsynaptics innervate parotid
gland
Postsynaptics innervate oral and
nasal mucosa and the lacrimal
gland
Postsynaptics innervate the sublingual and submandibular glands
Mnemonic
The acronym C-O-P-S is a useful way to remember the four
parasympathetic ganglia of the head.
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Neck
8
INTRODUCTION
The neck supports the head and connects it to the trunk.
It not only houses organs of its own, but serves as a passageway for structures coursing between the head and
trunk.
NECK
Skeleton of the Neck
The skeleton of the neck consists of the seven cervical vertebrae—presented with the back, the sternum—presented
with the thorax, the clavicles—presented with the upper
limb and the hyoid bone.
The hyoid bone does not articulate with any other bones.
It functions primarily as a muscle attachment for muscles of
the tongue and larynx.
Clinical Significance
Hyoid Fracture
Fractures of the hyoid are common in persons who are
strangled. The result is an inability to elevate the hyoid,
which makes swallowing and the prevention of ingested substances from entering the airway difficult.
Fascia and spaces of the neck
(Figure 8-1)
The neck is surrounded by a fatty layer of superficial fascia; the deep fascia of the neck divides it into compartments, facilitates movement, and determines the spread of
infection.
237
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Fascia and spaces of the neck (continued)
Structure
Description
Superficial cervical fascia • Overlies the deep cervical fascia
• Contains the platysma
• Contains neurovascular, lymphatic,
and fat
Deep Cervical Fascia
Investing
• Surrounds entire neck like a sleeve
• Splits to enclose the sternocleidomastoid
and trapezius muscles and submandibular
and parotid gland—forms fibrous
capsule
• Continuous with nuchal ligament
Prevertebral
• Encloses the vertebral column, longus coli,
scalenes—anterior, middle and posterior, longus
capitis, and deep cervical muscles
• An extension of prevertebral fascia forms the
axillary sheath—that surrounds the axillary
vessels and brachial plexus
Pretracheal
• Encloses the infrahyoid muscles, thyroid gland,
trachea, and esophagus
• Continuous with buccopharyngeal fascia
Carotid sheath
• Encloses the common carotid artery, internal
jugular vein, and vagus nerve
• Composed of contributions from investing,
prevertebral and pretracheal fascia
Buccopharyngeal fascia
• Encloses the pharynx
• Continuous with pretracheal fascia
Spaces of the Neck
Retropharyngeal space
• Between prevertebral and buccopharyngeal
fascia
• Subdivided by alar fascia
• Permits movement of the viscera during
swallowing
• Also called—danger space, because it is a
pathway for infection to spread between the
neck and posterior mediastinum
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239
Occipital
bone
Pharynx
Mandible
Hyoid
Investing fascia
Larynx
Superficial cervical
fascia (subcutaneous
tissue)
Pretracheal
fascia
Trachea
Manubrium
of sternum
Esophagus
Medial view
Anterior longitudinal
ligament
Body of vertebra
Buccopharyngeal fascia
Intervertebral disc
Longus colli muscle
Prevertebral fascia
Pharynx
Pharyngeal muscle
Retropharyngeal space
FIGURE 8-1. Sections of head and neck demonstrating cervical
fascia. (From Moore KL, Dalley AF. Clinically Oriented Anatomy.
5th ed. Baltimore: Lippincott Williams & Wilkins; 2006:1050.)
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CLINICAL ANATOMY FOR YOUR POCKET
Regions of the neck
(Figures 8-2, 8-3, and 8-6)
The neck is divided into four regions.
Region
Anterior cervical
(anterior triangle of
the neck)
Description and Contents
• Borders:
• Anterior—midline of neck
• Posterior—anterior border of sternocleidomastoid
• Inferior—junction of midline of neck and
sternocleidomastoid
• Superior—mandible
• Roof—investing layer of deep cervical fascia
• Floor—pretracheal fascia investing pharynx,
larynx, and thyroid
• Nerves in region:
• Transverse cervical—sensory to skin of region
• Hypoglossal—supplies tongue
• Vagus
• Glossopharyngeal
• Arteries in region:
• Common carotid—terminate in region to
form internal and external carotid
arteries
• Internal carotid—no branches in neck; enter
cranium via carotid canal
• External carotid—terminates as maxillary and
superficial temporal arteries; before termination gives:
1. Ascending pharyngeal
2. Occipital
3. Posterior auricular
4. Superior thyroid
5. Lingual
6. Facial
• Veins in region:
• Internal jugular—begins at jugular foramen as
continuation of sigmoid sinus, joins subclavian
to form brachiocephalic vein, receives—inferior
petrosal sinus, facial, lingual, pharyngeal, and
thyroid veins—superior and middle
• Anterior jugular
• Subdivided by digastric and omohyoid into:
• Submental triangle—unpaired; between
anterior bellies of digastrics, mandibular
symphysis and hyoid; contains—submental
nodes
(continued)
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Regions of the neck (continued)
Region
Lateral cervical
(posterior triangle of
the neck)
Description and Contents
• Submandibular triangle—between mandible
and anterior and posterior bellies of digastric;
contains—submandibular gland and nodes,
hypoglossal nerve (CN XII), facial artery, and
vein
• Carotid triangle—between superior belly of
omohyoid, posterior belly of digastric, and
anterior border of sternocleidomastoid;
contains—common carotid artery and branches,
vagus, spinal accessory and hypoglossal
nerves, cervical plexus, thyroid gland, larynx,
pharynx, and cervical nodes
• Muscular triangle—between superior belly of
omohyoid, anterior border of sternocleidomastoid, and midline of neck; contains—
infrahyoid muscles, thyroid, and parathyroid
glands
• Borders:
• Anterior—posterior border of sternocleidomastoid
• Posterior—anterior border of trapezius
• Inferior—clavicle
• Superior—junction of sternocleidomastoid
and trapezius
• Roof—investing layer of deep cervical
fascia
• Floor—prevertebral layer of deep cervical
fascia that covers the middle and posterior
scalenes, levator scapulae, and splenius
capitis
• Nerves in region:
• Spinal accessory (CN XI), supplies sternocleidomastoid and trapezius
• Brachial plexus—roots and trunks, supplies
upper limb
• Suprascapular nerve—supplies supra- and
infraspinatus
• Cervical plexus—C1–C4: give rise to phrenic
nerve (C3–C5) that supplies the diaphragm,
ansa cervicalis that supplies infrahyoid muscles,
and cutaneous branches: lesser occipital, great
auricular, transverse cervical, and supraclavicular, emerge from nerve point of the
neck—a quarter-sized area midway along the
posterior border of sternocleidomastoid
(continued)
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Regions of the neck (continued)
Region
Description and Contents
• Arteries in region:
• Transverse cervical—from thyrocervical trunk
• Suprascapular—from thyrocervical trunk
• Occipital—from external carotid artery
• Subclavian—3rd part, supplies upper limb
• Veins in the region:
• External jugular—formed by junction of
retromandibular and posterior auricular veins,
terminates in subclavian
• Subclavian—drains upper limb, joins internal
jugular to form brachiocephalic vein
• Subdivided by inferior belly of omohyoid
into:
• Occipital triangle—superior to omohyoid
• Omoclavicular triangle—inferior to
omohyoid
Posterior cervical
• Located posterior to anterior border of
trapezius
• Contains trapezius, suboccipital triangle—lies
deep
Additional Concept
Subclavian Artery
The subclavian artery passes posterior to the anterior scalene, whereas the vein passes anterior.
Carotid Artery
In the carotid triangle, the common carotid artery divides
into internal and external carotid arteries. At the bifurcation is the carotid sinus—a dilation of the internal carotid
that functions as a baroreceptor—measures blood pressure, innervated by CN IX. The carotid body also lies
near the bifurcation and functions as a chemoreceptor—
measures oxygen levels in blood, it is also innervated by
CN IX.
Clinical Significance
External Jugular Vein
The external jugular vein may become prominent and evident throughout its course as a result of increased venous
pressure as occurs in heart failure.
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Maxillary
243
Superficial
temporal
Occipital
Facial
Lingual
Internal
carotid
Carotid
sinus
Superior
thyroid
FIGURE 8-2. Lateral arteriogram (digital subtraction) of the head
and neck region with a blocked internal carotid artery. The most
common location of atherosclerosis in the carotid artery is at the
bifurcation of the common carotid artery. Carotid artery plaques
are usually ulcerated plaques. (From Dudek RW, Louis TM. HighYield Gross Anatomy. 3rd ed. Baltimore: Lippincott Williams &
Wilkins; 2008:268.)
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Muscles of the neck
(Figures 8-3 and 8-6)
Proximal
Muscle Attachment
Sternocle- Manubrium and
idomastoid clavicle
Distal
Attachment
Mastoid process and superior nuchal
line
Suprahyoids—Superior to the Hyoid
Mylohyoid Mylohyoid line Mylohyoid raof mandible
phe and hyoid
Digastric Anterior belly— Intermediate
mandible; post- tendon aterior belly—
tached to hyoid
temporal bone by connective
tissue
Geniohyoid Inferior mental Hyoid
spine of
mandible
Stylohyoid Styloid process
Infrahyoids—Inferior to the Hyoid
Omohyoid Scapula
Hyoid
SternoSternum
Thyroid
thyroid
cartilage
SternoHyoid
hyoid
Thyrohyoid Thyroid cartilage
Prevertebral
Longus coli C1–C6 vertebrae C3–T3
vertebrae
Longus
Occipital bone C3–C6
capitis
vertebrae
Rectus
C1 vertebra
capitis
(anterior
and lateral)
Anterior
C4–C6
1st rib
scalene
vertebrae
Middle
scalene
Posterior
2nd rib
scalene
Innervation
Spinal
accessory
Main Actions
Laterally flexes
and extends
neck; rotates
head
Nerve to
mylohyoid (V3)
Anterior
belly—nerve
to mylohyoid
(V3); posterior
belly—facial
C1 via
hypoglossal
Elevates hyoid
Depresses
mandible,
elevates hyoid
Elevates hyoid
Facial
Ansa cervicalis Depresses
hyoid
C1 via hypoglossal
Anterior rami Flexes and
of C2–C6
rotates neck
Anterior rami Flexes head
of C1–C3
Anterior rami
of C1–C2
Anterior rami
cervical
spinal nerves Laterally flexes
neck
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The trapezius is described with the shoulder region of the upper
limb.The platysma is described with the muscles of the face.
Additional Concept
Innervation
The ansa cervicalis is a loop in the cervical plexus consisting of fibers from the first three cervical nerves. Fibers from
C1–C2 form the superior root, whereas fibers from C2–C3
form the inferior root that unite to form the ansa cervicalis.
Clinical Significance
Torticollis
Torticollis is a contraction of the cervical muscles, most
commonly the sternocleidomastoid, which produces a twisting of the neck and slanting of the head.
Root of the neck
The root of the neck is the area of junction between the inferior aspect of the neck and the superior aspect of the thorax.
Feature Description
Nerves • Vagus
• Right recurrent
laryngeal
• Left recurrent
laryngeal
• Phrenic
• Sympathetic
trunks
Arteries
• Brachiocephalic
trunk
• Subclavian—
right and left
Veins
• External jugular
• Anterior jugular
• Subclavian
Significance
• Vagus—located in carotid sheath; right
recurrent laryngeal arises after right vagus
passes over subclavian artery, left recurrent
laryngeal arises after left vagus nerve
passes over arch of aorta; recurrent
laryngeals ascend in tracheoesophageal
groove to supply trachea, esophagus
and larynx
• Phrenic—C3–C5; sensory and motor to
diaphragm
• Sympathetic trunks—3 ganglia: superior,
middle, and inferior; postsynaptics
conveyed via gray communicating
branches to cervical spinal nerves,
cardiopulmonary splanchnic nerves to
thoracic viscera, and the periarterial
plexus to head and neck viscera
• Brachiocephalic trunk terminates by dividing
into right common carotid and right
subclavian arteries
• Right subclavian is a branch of brachiocephalic trunk; left is a branch of the arch
of the aorta
• External jugular drains scalp and face;
empties into subclavian
(continued)
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Root of the neck (continued)
Feature Description
Significance
• Anterior jugular formed by submandibular
veins, unites with contralateral counterpart
to form the jugular venous arch superior
to sternum; empties into external jugular
• Subclavian vein begins as axillary vein
crosses 1st rib; ends by joining internal
jugular vein to form brachiocephalic at the
venous angle—place where thoracic
duct and right lymphatic duct typically join
venous system on left and right sides
respectively
Styloglossus
Hypoglossal
nerve (CN XII)
Nerve roots
of cervical
plexus
Hypoglossus
C1
C2
Genioglossus
C3
Geniohyoid
Internal carotid
artery
Hypoglossal nerve
(CN XII)
Ansa Inferior root
cervicalis Superior root
Thyrohyoid
Omohyoid
Sternohyoid
Lateral view
Sternothyroid
FIGURE 8-3. Distribution of hypoglossal nerve (CN XII). CN XII
leaves the cranium through the hypoglossal canal and passes deep
to the mandible to enter the tongue, where it supplies all intrinsic
and extrinsic lingual muscles, except the palatoglossus. CN XII is
joined immediately distal to the hypoglossal canal by a branch
conveying fibers from the C1 and C2 loop of the cervical plexus.
These fibers hitch a ride with CN XII, leaving it as the superior root
of the ansa cervicalis and the nerve to the thyrohyoid muscle.
(From Moore KL, Dalley AF. Clinically Oriented Anatomy. 5th ed.
Baltimore: Lippincott Williams & Wilkins; 2006:1105.)
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Additional Concept
Subclavian Arteries
The subclavian arteries are divided into three parts by the
anterior scalene muscle. Part 1 is proximal, Part 2 is deep,
and Part 3 is distal to the muscle.
Part 1 branches—
■
■
■
vertebral—runs superiorly in transverse cervical foramina,
enters cranium through foramen magnum to supply brain
internal thoracic—supplies structures in thorax
thyrocervical—gives rise to inferior thyroid artery: to neck
viscera, suprascapular: to scapular region, transverse cervical: to lateral cervical region, and ascending cervical: to
neck musculature
Part 2 branches—
■
costocervical trunk—gives rise to superior intercostal: to
first two intercostal spaces and deep cervical: to neck
musculature
Part 3 branches—
■
dorsal scapular—supplies rhomboids and levator scapulae
and the scapular region
Sympathetic Trunks
The inferior cervical and first thoracic sympathetic ganglia
often fuse to form the cervicothoracic or stellate ganglion.
Mnemonic
Phrenic Nerve
Nerve roots in the phrenic nerve: C3, C4, and C5 keep the
diaphragm alive.
Clinical Significance
Subclavian Vein
The subclavian vein is a common point of entry for central
line placement.
Lymphatics of the neck
Superficial lymphatic drainage of the neck is to superficial
cervical lymph nodes located along the external jugular
vein. Superficial drainage and drainage from deep structures is conveyed to deep cervical lymph nodes, generally
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found along the internal jugular vein. Efferents from the
deep cervical nodes form the jugular lymphatic trunks
that empty lymph into the right lymphatic or thoracic
duct.
Structure
Thyroid
Description
Lymphatic vessels communicate in a network around
the fibrous capsule of the
gland
Drainage
The network of vessels drain
to prelaryngeal, pretracheal,
and paratracheal nodes,
which drain into deep cervical
nodes
Parathyroid
Lymphatic vessels drain
glands
Parathyroid vessels drain
into deep cervical and paratracheal nodes
Larynx
Lymphatic vessels accompany laryngeal arteries
• Vessels superior to vocal
folds follow superior laryngeal artery to the deep
cervical nodes
• Vessels inferior to vocal
folds drain into pretracheal
or paratracheal nodes,
which drain to deep
cervical nodes
Pharynx
Lymphatic vessels from
the tonsils drain to nodes
near the angle of the
mandible
The lymph from the tonsils is
referred to the jugulodigastric node
Additional Concept
Tonsillar Ring
The palatine, lingual, tubal, and pharyngeal tonsils form the
tonsillar ring (Waldeyer’s Ring)—a ring of lymphatic tissue
around the superior aspect of the pharynx.
Clinical Significance
Tonsillectomy
Tonsillectomy is performed by removing the palatine tonsil and its fascia from the tonsillar bed. Inflammation of
the pharyngeal tonsils is adenoiditis. Inflamed adenoids
may interfere with nasal breathing and allow infection
to spread to the middle ear cavity through the auditory
tube.
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ENDOCRINE ORGANS IN THE NECK
Thyroid and parathyroid
(Figures 8-2 and 8-6)
The endocrine organs of the neck include the thyroid and
parathyroid glands. The thyroid gland—located in the anterior aspect of the neck, produces thyroid hormone and calcitonin, whereas the four parathyroid glands—embedded in
the posterior aspect of the thyroid gland—produce parathyroid hormone.
Gland
Thyroid
Parathyroid
Feature
Description
• Lobes—right and left are • Gland is surrounded by a
connected by an isthmus
fibrous capsule and the
• Arterial supply—superior
pretracheal layer of deep
and inferior thyroid
cervical fascia
arteries
• Superior and middle thyroid
• Venous drainage—
veins drain into the internal
superior, middle and
jugular veins, whereas the
inferior thyroid veins
inferior veins drain the
• Innervation—sympathetic
brachiocephalic veins
• Sympathetic innervation is
from the cervical sympathetic ganglia; the postganglionics follow arteries
to the gland and cause
vasoconstriction
• Arterial supply—inferior Sympathetic innervation is
thyroid glands
from the cervical sympathetic
• Venous drainage—drain ganglia; the postganglionics
into the thyroid veins
follow arteries to the gland
• Innervation—sympathetic and cause vasoconstriction
Additional Concept
Thyroid Ima Artery
The thyroid ima artery is present in approximately 10% of
people. It has a variable origin, often from the aorta, and, when
present, supplies the trachea and isthmus of the thyroid. This
midline artery must be considered during procedures in the
midline of the neck.
Clinical Significance
Goiter
Enlargement of the thyroid gland—goiter, results from
iodine deficiency. The enlarged gland may compress nearby
structures.
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Epiglottis
Vestibular fold
Vocal fold
Aryepiglottic fold
Rima glottidis
FIGURE 8-4. Laryngeal cartilages. Photograph depicting the structures observed during inspection of the vocal cords using a laryngeal
mirror. (From Dudek RW, Louis TM. High-Yield Gross Anatomy. 3rd
ed. Baltimore: Lippincott Williams & Wilkins; 2008:280.)
RESPIRATORY STRUCTURES IN THE NECK
Larynx and trachea
(Figures 8-2, 8-4, and 8-5)
The larynx routes air into the respiratory tract, food into the
esophagus, blocks the airway during swallowing, and produces the voice.
The trachea, presented in detail in the thorax chapter
(see Chapter 1), extends from the inferior border of the
cricoid cartilage of the larynx to its termination in the thorax at the level of the sternal angle as the right and left primary bronchi.
Structure
Laryngeal inlet
Laryngeal
vestibule
Description
Space bounded by aryepiglottic folds and epiglottis
Significance
Entrance into the larynx at
which point the vestibule of
the larynx is continuous with
the laryngopharynx
Space bounded by laryngeal Space contained between
inlet superiorly and vestithe quadrangular membrane
bular folds inferiorly
(continued)
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Larynx and trachea (continued)
Structure
Description
Significance
Laryngeal
ventricle
Lateral extension of laryngeal
cavity between vestibular
and vocal folds
Space bounded by vocal
folds superiorly and inferior
border of cricoid cartilage
inferiorly
Mucosa covered folds that
project into laryngeal cavity
Laryngeal saccule—blindended, mucous-secreting pocket that opens into ventricle
Continuous inferiorly with
lumen of trachea
Infraglottic
cavity
Vestibular folds
Vocal folds
Glottis
• Contain vestibular ligament
• Space between—rima
vestibuli
• Adducting vestibular folds
prevents ingested substances from entering
airway
• Contain vocal ligament and
vocalis: lateral to vocal
ligaments, involved in
whispering
• Adducting vocal folds
prevents ingested subances from entering
airway
Vocal folds and space betVarying the tension and
ween them—rima glottidis length of the vocal folds
varies size of rima glottidis
to produce varying pitch for
speech
Additional Concept
Blood Supply to the Larynx
The superior laryngeal artery, a branch of the superior thyroid artery, passes through the thyrohyoid membrane with
the internal laryngeal nerve to anastomose with the internal
laryngeal artery, a branch of the inferior thyroid artery that
accompanies the inferior laryngeal nerve. The venous
drainage parallels arterial supply.
Clinical Significance
Valsalva Maneuver
In the Valsalva maneuver, the vestibular and vocal folds are
tightly adducted after a deep inspiration. Contraction of the
abdominal muscles increases intrathoracic and intraabdominal pressures, thereby impeding venous return to the heart.
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Skeleton of the larynx
(Figure 8-5)
The skeleton of the larynx consists of nine cartilages that are
connected by membranes and ligaments.
Structure
Description
Significance
Thyroid cartilage Composed of 2 laminae— • The anterior junction of
possess a set of superior
the laminae form the
and inferior horns on their
laryngeal prominence
posterior borders
or Adam’s apple
• The superior horn and
border of the cartilage
attach to the hyoid by the
thyrohyoid membrane
• The inferior horns articulate with the cricoid cartilage at the cricothyroid
joint
Cricoid cartilage Complete cartilaginous ring • Connected to thyroid
inferior to thyroid cartilage
cartilage by median
cricothyroid ligament
• Connected to 1st tracheal
ring by cricotracheal
ligament
Epiglottic
Mucous covered, leaf• Inferior aspect attached to
cartilage
shaped anterior border of
thyroid by thyroepiglottic
the laryngeal inlet
ligament
• Anterior aspect attached
to hyoid by hypoepiglottic ligament
Arytenoid
• 3 sided, pyramidal-shaped: • Apex: articulates with
cartilages (2)
1. Apex
corniculate cartilages and
2. Vocal process
is embedded within the
3. Muscular process
aryepiglottic fold
• Articulate with cricoid
• Vocal process: posterior
cartilage at cricoaryteattachment for vocal
noid joints
ligament
• Muscular process: attachment for lateral and
posterior cricoarytenoid
muscles
Corniculate
• Articulate with apex of
Provide structure to aryepicartilages (2)
arytenoid cartilages
glottic folds
• Embedded within aryepiglottic fold
Cuneiform
Embedded within aryepicartilages (2)
glottic fold
(continued)
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Skeleton of the larynx (continued)
Structure
Thyrohyoid
membrane
Description
Attaches thyroid cartilage
to hyoid
Vocal ligament
Extend from laryngeal
prominence anteriorly to
vocal process of arytenoid
cartilages posteriorly
Extends from arytenoid
cartilages to sides of
epiglottic cartilages
Quadrangular
membrane
Conus elasticus • Superior border—vocal
ligaments
• Lateral extensions—
lateral cricothyroid
ligaments
Joints
Cricothyroid
Cricoarytenoid
Articulation between inferior
horns of thyroid and cricoid
cartilage
Articulation between
arytenoid cartilages and
cricoid cartilage
Significance
• Midline thickening is
median thyrohyoid
ligament
• Lateral thickenings form
lateral thyrohyoid
ligaments
• Thickened, free superior
border of conus elasticus
• Covered by mucosa to
form vocal fold
• Free inferior border—
vestibular ligament,
covered by mucosa to form
vestibular fold
• Free superior border—
aryepiglottic ligament,
covered by mucosa to form
aryepiglottic fold
• Continuous anteriorly with
median cricothyroid
ligament
• Close tracheal inlet when
vocal ligaments are
approximated
Movements: rotation and
gliding of thyroid on the
cricoid
Movements: sliding of
arytenoid cartilages—toward
or away from each other,
tilting and rotation of
arytenoids
Clinical Significance
Fracture
Laryngeal fractures are common. They may produce hemorrhage and edema, obstruction of the airway, and hoarseness.
Muscles of the larynx
The extrinsic muscles of the larynx include the supra- and
infrahyoid musculature described with the muscles of the
neck and are involved in moving the larynx as a whole—
suprahyoids elevate the larynx; infrahyoids depress the larynx.
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Epiglottis
Lesser horn of hyoid
Greater horn
of hyoid
Body of hyoid
Thyrohyoid
membrane
Superior
horn
Thyroid
cartilage Oblique line
Inferior
horn
Cricoid
cartilage
Laryngeal
prominence
Median
cricothyroid
ligament
Cricotracheal
ligament
Lamina
Arch
1st
2nd
Tracheal
cartilages
3rd
Right lateral view
FIGURE 8-5. Skeleton of larynx, right lateral view. (From Moore KL,
Dalley AF. Clinically Oriented Anatomy. 5th ed. Baltimore: Lippincott
Williams & Wilkins; 2006:1090.)
The intrinsic muscles of the larynx move the skeleton of
the larynx to alter tension on the vocal folds and the size of
the rima glottidis.
Muscle
Vocalis
Proximal
Attachment
Arytenoid
cartilage
Distal
Attachment
Vocal
ligament
Cricothyroid Cricoid cartilage Thyroid
cartilage
Innervation
Inferior
laryngeal
External
laryngeal
Main Actions
Alter tension
on vocal
ligament for
whispering
Tenses vocal
ligament
(continued)
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Muscles of the larynx (continued)
Muscle
Thyroarytenoid
Lateral
cricoarytenoid
Proximal
Distal
Attachment
Attachment Innervation
Thyroid cartilage Arytenoid
Inferior
cartilage
laryngeal
Main Actions
Relaxes vocal
ligament
Cricoid
cartilage
Adducts vocal
folds
Posterior
cricoary
tenoid
Transverse Arytenoid
and oblique cartilage
arytenoids
Abducts vocal
folds
Contralateral
arytenoid
cartilage
Alter tension on
vocal ligament
Additional Concept
Innervation
All intrinsic laryngeal musculature is innervated by branches
of CN X. The external and internal laryngeal nerves are
branches of the superior laryngeal nerve, which is a branch
of CN X. The internal laryngeal nerves supplies sensory
innervation superior to the vocal folds, whereas the external
laryngeal nerves supplies the cricothyroid muscle. Sensory
innervation inferior to the vocal folds and all of the remaining intrinsic musculature is supplied by the recurrent laryngeal nerve, via the inferior laryngeal branch.
ALIMENTARY STRUCTURES IN THE NECK
Pharynx and esophagus
(Figure 8-1)
The pharynx is the fibromuscular tube that serves as a common route for air and ingested substances. It extends from
the base of the cranium to the inferior border of the cricoid
cartilage of the larynx. It is divided into three parts based on
what region/structure it lies posterior to and communicates
with: (1) nasopharynx, (2) oropharynx, and (3) laryngopharynx. The esophagus, presented in the thorax chapter (see
Chapter 1), extends from the pharyngoesophageal junction
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to its termination in the abdomen at the cardial orifice of the
stomach. It is composed of voluntary, skeletal muscle in its
upper third, a mixture of skeletal and smooth muscle in its
middle third, and involuntary, smooth muscle as its inferior
third. The innervation mirrors the musculature—the superior half receives somatic motor and sensory innervation,
whereas the inferior half receives autonomic (vagal parasympathetic and sympathetic) and visceral sensory innervation.
Structure
Nasopharynx
Description
• Posterior to nasal cavity
• Extends inferiorly to level
of soft palate
• Pharyngeal tonsils—
located on posterior wall
• Auditory tube—opens
on posterolateral wall
• Salpingopharyngeal
fold—extends from torus
tubaris to blends with
pharyngeal muscles
Oropharynx
• Posterior to oral cavity
• Between soft palate and
epiglottis
• Palatine tonsils—
located between palatoglossal and palatopharyngeal arches
Laryngopharynx • Posterior to larynx
• Between epiglottis and
cricoid cartilage
• Communicates anteriorly
with larynx at laryngeal
inlet
Significance
• Communicates with nasal
cavity via posterior
choanae
• Pharyngeal tonsils—
aggregate of lymphatic
tissue
• Auditory tube (pharyngotympanic tube)—opening
surrounded by cartilaginous
torus tubaris and lymphatic elements—the tubal
tonsil
• Salpingopharyngeus
underlies the mucosal that
forms the fold; its contraction opens the auditory
tube during swallowing
• Receives bolus of food
from oral cavity during
swallowing
• Palatine tonsils (tonsils)—
aggregate of lymphatic
tissue that lie in the
tonsillar bed: formed by
the superior constrictor
and pharyngobasilar
fascia—that fascia that
fills space between the
superior constrictor and
the cranium
• Walls formed by middle
and inferior constrictor,
palatopharyngeus, and
stylopharyngeus muscles
• Piriform recess—
depression on each side of
laryngeal inlet between
pharyngeal wall and
aryepiglottic fold
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Additional Concept
Swallowing
Swallowing has three phases:
1. Stage 1: voluntary; food is formed into bolus and pushed
into oropharynx
2. Stage 2: involuntary; soft palate elevates, pharynx widens
and shortens
3. Stage 3: involuntary; pharyngeal constrictors force food
inferiorly into esophagus
Blood Supply to the Pharynx
The longitudinally oriented pharynx receives branches from
a host of arteries throughout its course, including tonsillar,
ascending and descending palatine, lingual, and ascending
pharyngeal arteries.Venous drainage parallels arterial supply.
Clinical Significance
Piriform Fossa
The superior laryngeal artery and internal and inferior
laryngeal nerves lie just deep to the mucosa of the piriform
fossa and are subject to damage when ingested objects
become lodged here.
Muscles of the pharynx
(Figures 8-3 and 8-6)
The muscles of the pharynx are arranged into an external
circular layer and an internal longitudinal layer. All laryngeal
muscles are voluntary.
Proximal
Muscle Attachment
External
Superior Pterygomandiconstrictor bular raphe,
mandible,
tongue, pterygoid
hamulus
Middle
Stylohyoid
constrictor ligament and
hyoid bone
Inferior
Thyroid and
constrictor cricoid cartilage
Distal
Attachment
Innervation
Pharyngeal
Pharyngeal
tubercle of
plexus
occipital bone
and pharyngeal raphe
Pharyngeal
raphe
Main Actions
Constricts
pharynx
(continued)
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Muscles of the pharynx (continued)
Proximal
Muscle Attachment
Internal
PalatoPalatine
pharyngeus aponeurosis
Stylopharyngeus
Salpingopharyngeus
Distal
Attachment
Pharynx
Styloid process
of temporal bone
Torus tubaris of
of auditory tube
Innervation
Main Actions
Pharyngeal
plexus
Tenses soft
palate, elevates
pharynx
Elevates
pharynx
CN IX
Pharyngeal
plexus
Additional Concept
Fascia of the Pharynx
The fascia covering the internal aspect of the pharyngeal
constrictors is pharyngobasilar fascia, whereas the fascia
on their external surface is buccopharyngeal fascia. The
pharyngobasilar fascia combines with the buccopharyngeal
Pharyngobasilar
fascia
Superior constrictor
CN IX
Glossopharyngeal
nerve (CN IX)
CN XI
Internal jugular vein
Internal carotid artery
CN XII
Spinal accessory
nerve (CN XI)
Sternocleidomastoid
Styloid process
Stylohyoid
Digastric,
posterior belly
Sensory ganglion of
vagus nerve
(CN X)
Stylopharyngeus
Hypoglossal nerve (CN XII)
Superior cervical
sympathetic ganglion
Pharyngeal plexus
Middle constrictor
Superior laryngeal nerve
Common carotid artery
Sympathetic trunk
and plexus
Vagus nerve (CN X)
Pharyngeal raphe
Inferior constrictor
Thyroid gland
Inferior thyroid artery
Cricopharyngeal part of
inferior constrictor
Left recurrent
laryngeal nerve
Right recurrent
laryngeal nerve
Esophagus
Posterior view
FIGURE 8-6. Pharynx and cranial nerves, posterior view. (From
Moore KL, Dalley AF. Clinically Oriented Anatomy. 5th ed.
Baltimore: Lippincott Williams & Wilkins; 2006:1105.)
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fascia superior to the superior constrictor to fill the gap
between the superior constrictor and the cranium.
Innervation
The musculature of the pharynx, with the exception of the
stylopharyngeus, is supplied by the pharyngeal plexus.
Motor fibers in the pharyngeal plexus are from CN X,
whereas sensory fibers are from CN IX. The superiormost part of the nasopharynx receives sensory innervation
from V2.
Constrictor Muscles
The constrictors are arranged like a stack of nested flower
pots, with gaps between each. The gaps allow structures to
enter and leave the pharynx. The four gaps between:
1. superior constrictor and cranium—conveys levator palati,
auditory tube, and ascending palatine artery
2. superior and middle constrictors—conveys stylopharyngeus, stylohyoid ligament, and the glossopharyngeal
nerve
3. middle and inferior constrictors—conveys internal laryngeal nerve and superior laryngeal artery
4. inferior constrictor and esophagus—conveys recurrent
laryngeal nerve and inferior laryngeal artery; the recurrent laryngeal nerve changes names to the inferior laryngeal nerve upon entering the larynx.
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List of Mnemonics
Abdominal wall muscles, 38
Anterior forearm flexors,
175–176
Arterial anastomosis at
elbow, 178
Axillary artery branches,
167
Back muscles, 124
Biceps brachii
attachments, 170
Brachial plexus, 189
Carpal bones, 180
Cubital fossa, 185
Elbow movement, 195f
Eye innervation, 234
Femoral triangle, 147, 148
Hand musculature
innervation, 182
Inhaled objects, 30
Intercostal neurovascular
elements, 13
260
Interossei function, 182
Intertubercular groove
muscle attachments,
169
Lateral rotators of hip
joint, 130
Leg muscles, 140
Long thoracic nerve, 165
Lower limb, 157
Lumbar plexus, 40
Pectoral nerves, 190
Pelvis nerves, 88
Peritoneal cavity, 47
Phrenic nerves, 247
Popliteal fossa, 147
Radial nerve, 177
Scalp, 202
Thigh muscles, 135
Thoracoacromial trunk
branches, 167
Thorax, 15
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Index
Abdomen
area, 33–34
cavity, 33
embryologic arterial supply,
53
hernia
direct inguinal, 44, 47
indirect inguinal, 44, 47
intraperitoneal organs,
47
jejunum, 46f
lymphatics, 74–76
quadrants, 34
regions, 33
Abdominal wall
anterolateral, 37
arcuate line, 36
conjoint tendon, 36
endoabdominal fascia, 35
guarding reflex, 38
iliopubic tract, 36
inguinal canal, 34
deep inguinal ring, 34
inguinal ligament, 36
lacunar ligament, 36
pectineal ligament, 36
subinguinal space, 34
superficial inguinal ring,
35
investing fascia, 35
parietal peritoneum, 35
posterior, 37–38
rectus sheath, 35, 36
structures, 35–36
superficial fascia, 35
Aorta
abdominal, 22f, 39, 72
arch of, 17, 22f
thoracic, 13
Arm, 167–172. See also Upper
limb
Artery(ies), 60f
alveolar
inferior, 216
posterior superior, 216
angular, 213
appendicular, 57
arcuate, 145
arterial arcades, 53
atrioventricular nodal branch,
25
auricular
deep, 216
posterior, 213
axillary, 166, 171
basilar, 209
brachial, 172
compression of, 172
deep, 172
brachiocephalic trunk, 17, 22f,
245
bronchial, 14
right/left, 31
carotid, 242
common, 240
external, 240
internal, 208, 240, 243f
left common, 17, 22f
carpal arch
dorsal, 183
palmar, 183
celiac trunk, 50, 61, 62f, 65,
67, 69
cerebral
anterior, 209
arterial circle, 209, 210
middle, 209
posterior, 209
circumflex branch, left, 25
colic
left, 57
middle, 57
right, 57
communicating
anterior, 209
posterior, 209
coronary, 26
left, 25
right, 22f, 25
cremasteric, 39, 40, 42
261
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INDEX
Artery(ies) (continued)
costocervical trunk, 247
cystic, 60f, 65
digitals, dorsal, 146
dorsalis pedis, 145
dorsal scapular, 247
ductus deferens, 39, 42,
102
epigastric
inferior, 38
superficial, 39, 136
superior, 38
esophageal, 14
ethmoidal, 235
facial, 213
femoral, 136, 137
deep, 136
femoral circumflex
lateral, 137
medial, 137
fibular, 142
gastric
left, 50
right, 50
short, 50
gastroduodenal, 50, 67
gastro-omental
left, 50
right, 50
genicular, 141
descending, 137
gluteal
inferior, 89, 93, 130
superior, 89, 130
gonadal, 89
right/left, 72
hepatic, 50, 60f, 61, 65, 67
common, 60f
left branches, 60f
right branches, 60f
right/left, 61, 65
humeral, circumflex, 166,
172
ileocolic, 57
iliac
deep circumflex, 39
internal, 89
anterior, 89
posterior, 89
superficial circumflex, 39,
136
iliolumbar, 89
inferior epigastric, 45
infraorbital, 216
intercostal
anterior, 6, 10
posterior, 6, 10, 14
interosseous
anterior, 177
common, 177
posterior, 177
recurrent, 177
interventricular
anterior, 22f, 25
posterior, 25
lacrimal, 235
lower limb, 131f
lumbar, 39
mammary branch
lateral, 10
medial, 10
marginal, 57
left, 25
right, 25
maxillary, 216, 218
medullary, 120
meningeal, middle, 205,
216
mental, 213
mesenteric
inferior, 57, 62f
superior, 53, 57, 60f, 62f,
67
metatarsals, dorsal, 146
musculophrenic, 38
nasal
dorsal, 234
lateral, 213
obturator, 89, 93, 136
occipital, 213, 242
ophthalmic, 234
palatine, descending,
216
palmar arch
deep, 182
superficial, 182
palmar digitals
common, 183
proper, 183
pancreatic
caudal, 67
dorsal, 67
great, 67
pancreaticoduodenal
anterior/posterior inferior,
67
anterior/posterior
superior, 67
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inferior, 53
superior, 52–53
pericardial, 14
phrenic
inferior, 74
superior, 14
plantar
arch, 146
deep, 146
digitals, 146
lateral, 146
medial, 146
metatarsals, 146
popliteal, 141
posterior ciliary, 235
princeps pollicis, 183
pudendal, 110
deep external, 137
internal, 89, 94, 130, 136
superficial external, 137
pulmonary, right/left, 31
pulmonary trunk, 22f
radial, 177
radialis indicis, 183
radicular, anterior/posterior,
120
rectal
inferior, 57
middle, 57, 89, 94
superior, 57
renal, 74
right/left, 72
retina, central artery of, 234
sacral, lateral, 89
scapular, circumflex, 166,
172
scrotal
anterior, 40
posterior, 40
segmental, 72, 119
sigmoid, 57
sinuatrial nodal branch,
25
sphenopalatine, 216
spinal
anterior, 119
posterior, 119
splenic, 50, 60f, 67, 69
subclavian, 242
left, 17, 22f
right/left, 165, 245
subcostal, 6, 14, 39
subscapular, 166, 172
supraorbital, 213, 234
263
suprarenal
inferior, 74
middle, 74
superior, 74
suprascapular, 166, 242
supratrochlear, 213, 234
tarsal, lateral, 145
temporal
deep, 216
superficial, 213
testicular, 39, 42
thoracic
internal, 6, 166
lateral, 166
superior, 166
thoracoacromial, 10, 166
thoracodorsal, 166, 172
thyrocervical trunk, 166
thyroid ima, 249
tibial
anterior, 142
posterior, 142
transverse cervical, 166
transverse facial, 213
tympanic, anterior, 216
ulnar, 177
anterior recurrent, 177
inferior collateral, 172
posterior recurrent, 177
superior collateral, 172
umbilical, 89
upper limb, 161f
uterine, 89
vaginal, 89, 93, 94, 96
vertebral, 116, 209
vesical
inferior, 89, 93, 94
superior, 89, 93
Back
suboccipital triangle, 124–125
Biliary tree, cholangiograph,
64f
Bone marrow harvesting, with
sternal puncture, 3
Bones
calcaneus, 142
capitate, 178
clavicle, 157
fracture, 162
coccyx, 126
Colles’ fracture, 173
coxal, 126–127
cuboid, 143
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INDEX
Bones (continued)
cuneiform
intermediate, 143
lateral, 143
medial, 143
epiphysial rim, 114
ethmoid, 197
fibula, 138
fracture, 139
frontal, 197
hamate, 178
hard palate, 196
hip, 79–81, 126–127
gluteal lines, 79
hip pointer, 129
iliac crest, 79
ilium, 79
ischium, 79
humerus, 160f, 167–169
fracture, 169
ilium, 126–127
incus, 227
inferior nasal concha, 200
inferior articular processes,
115
ischium, 127
lacrimal, 200
lamina, 115
lower limb, 128f
bones, 132
lunate, 178
malleus, 227
mandible, 198–199
fractures, 201
lingula, 199
maxilla, 198
metacarpals, 179
fracture, 180
metatarsals, 143
nasal, 200
navicular, 143
occipital, 197
palatine, 200
parietal, 197
pedicle, 115
pelvic, 126–127
pelvis, 78–81
acetabular notch, 79
acetabulum, 79
gluteal lines, posterior, 80
radiograph, 82f
phalanges
distal, 143, 179
middle, 143
proximal, 143
pisiform, 178
pubic arch, 79
pubis, 81, 127
radius, 160f, 173
sacrum, 126
scaphoid, 178
fracture, 179f
scapula, 157–158
shoulder, 157–159, 160f
sphenoid, 197–198
spinous process, 115
stapes, 227
sternum, 2
superior articular processes,
115
talus, 142
temporal, 199–200
styloid process, 173
thoracic vertebrae, 2
tibia, 137–138
fracture, 138
transverse processes, 115
trapezium, 178
trapezoid, 178
triquetrum, 178
typical ribs of, 1
ulna, 160f
olecranon fracture, 173
uncinate process, 115
upper limb, 160f
vertebral arch, 114, 116
vertebral canal, 116
vertebral foramen, 114, 116
vertebral notches, 115
vomer, 200
zygomatic, 200
zygomatic arch, 196
Brain, 202–210. See also Cranium;
Head
apertures
lateral, 208
median, 208
areas, 202
brainstem, 202
cerebellum, 202
cerebral aqueduct, 208
cerebrovascular accident,
209
choroid plexus, 208
concussion, 202
contusion, 202
diencephalon, 202
dural folds
cerebellar falx, 206
cerebellar tentorium, 206
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cerebral falx, 206
sellar diaphragm,
206
dural sinuses, 206–207
cavernous, 207, 208
confluence, 207
inferior sagittal, 207
occipital, 207
petrosal, 207
sigmoid, 207
straight, 207
superior sagittal, 206
transverse, 207
epidural space, 205
interventricular foramina,
208
meninges, 204, 205
arachnoid mater, 204, 205
granulations, 205, 208
trabeculae, 205
dura mater, 204, 205
pia mater, 204, 205
stroke, 209
subarachnoid cisterns,
208
subarachnoid space, 205,
208
subdural space, 205
ventricular system, 208
fourth ventricle, 208
lateral ventricles, 208
third ventricle, 208
Breast
area, 8
areola, 8
axillary process, 9
lactiferous duct, 9
lactiferous sinus, 9
mammary glands, 8
nipple, 8
quadrants, 10
retromammary space, 10
structure, 8–9, 9f
suspensory ligaments, 9
Clitoris, 100
Cranium, 196–202
bones, 196–201
neurocranium, 196
scalp, 201
viscerocranium, 196–201
Ear, 226–228f
auditory tube, 227
bony labyrinth, 227
cochlea, 227
external, 227
infection, 228
inner, 227
membranous labyrinth,
227
middle, 227
organ of Corti, 227
saccule, 227
semicircular canals,
227
tympanic membrane,
227
utricle, 227
Esophagus, 13, 16, 239f, 255
constrictions, 14
pyrosis, 48
sphincters, 48
structure, 48
varices, 48
Eye. See Orbit
Face, 209–215, 212f
Foot, 142–146
arches of, 147
avulsion, 143
fourth compartment,
151
inversion injury, 156f
plantar aponeurosis,
152
plantar fasciitis, 152
Forearm, 173–178
elbow tendonitis, 176
tennis elbow, 176
Gallbladder, 60f
bile duct, common, 63
body, 63
cholangiograph, 64f
cystic duct, 63
fundus, 63
gall stones, 64f
hepatopancreatic ampulla,
63
sphincter, 63
neck, 63
spiral valve, 63
Genitalia, female, 101f
external, 99
external os, 95, 96
frenulum
of the clitoris, 99
of the labia minora,
99
265
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Genitalia, female (continued)
internal, 95–96
internal os, 96
labia
major, 99, 111
minora, 99, 111
mons pubis, 99, 111
ovaries, 98
prepuce of the clitoris,
99
pudendal cleft, 102
uterine tubes, 97
uterus, 96
vagina, 95
vaginal fornices, 95
vaginal vestibule, 95, 102
vulva, 102
Genitalia, male
bulbourethral glands, 104
ductus deferens, 102
ejaculatory ducts, 102, 103
external, 106
internal, 102–104
prostate, 102, 103–104, 105f
fibrous capsule of, 103
prostatic sinuses, 103
prostatic utricle, 103
seminal colliculus, 103
seminal glands, 102–103
vasectomy, 104
Gluteal region, 126–132
acetabulum, 129
Hand, 178–183
Head. See also Brain; Cranium
connective tissue, 201
loose, 201
headache, 205
parasympathetic ganglia
ciliary, 236
otic, 236
pterygopalatine, 236
submandibular, 236
pericranium, 201
pterygopalatine fossa,
217–218
pterygomaxillary fissure,
218
sphenopalatine foramen,
218
scalp, 201
scalp trauma, 201
skin, 201
sphenomandibular ligament,
199
temporal region
intertemporal fossa, 215
structure, 215
temporal fossa, 215
Heart, 19–21
aortic sinuses, 21
aortic valve, 21, 23
aortic vestibule, 21
apex of, 22f
atrioventricular valves,
right/left, 20
atrium
left, 21
right, 20
auricle, 21
left, 22f, 22f
right, 22f
auscultation of, 23
bicuspid valve, 23
chordae tendineae, 20, 22f
conus arteriosus, 21, 22f
coronary artery disease,
26
crista terminalis, 20
ductus arteriosus, 32
endocardium, 22
epicardium, 22
fibrous skeleton, 20
foramen ovale, 23
interatrial septum, 20
interventricular septum, 20
ligamentum arteriosum, 16,
22f, 32
muscular interventricular
septum, 22f
myocardium, 22
papillary muscles, 20,
22f
pectinate muscles, 19
pulmonary sinuses, 21
pulmonary valve, 21, 23
septal defects, 23
septomarginal trabecula,
21
sinus venarum, 20
sulcus terminalis, 20
supraventricular crest,
21
surfaces, 19
trabeculae carneae, 19
tricuspid valve, 22f, 23
ventricle, 23
left, 21, 22f
right, 21
walls of, 22
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Joint(s)
acromioclavicular, 192
dislocation, 195
ankle, 154
atlantoaxial, 117
atlanto-occipital, 117
carpometacarpal, 194
costochondral, 7
costotransverse, 8
costovertebral, 8
cricoarytenoid, 253
cricothyroid, 253
elbow, 193, 195f
femorotibial, 153
glenohumeral, 192–193
dislocation, 195
hip, 153
humeroradial, 193
humeroulnar, 193
intercarpal, 194
interchondral, 7
intercostal
1st, 7
2nd-7th, 7
interphalangeal, 155, 194
intertarsal, 155
intervertebral, 7, 117
knee, 153, 157f
injuries, 157
lower limb, 153–155
manubriosternal, 7
metacarpophalangeal,
194
metatarsophalangeal, 155
pelvis, 82–83
pubic symphysis, 79, 83
radiocarpal, 194
radioulnar, 193
sacroiliac, 82
sacrotuberous, 82
scapulothoracic, 193
shoulder, 192–193
sternoclavicular, 7, 192
superior tibiofibular, 154
talocalcaneal, 155
talocrural, 154
tarsometatarsal, 155
temporomandibular, 220, 221
lateral ligament, 221
thoracic wall, 7–8
tibiofibular syndesmosis, 154
uncovertebral, 117
upper limb, 192–194
xiphisternal, 7
zygapophysial, 117
267
Kidney(s), 69–70
longitudinal section,
71f
major calyces, 70
minor calyces, 70
pararenal fat, 70
perirenal fat, 70
renal
capsule, 70
cortex, 70
fascia, 70
hilum, 70
medulla, 70
papilla, 70
pelvis, 70
pyramid, 70
sinus, 70
stones, 72
transplantation, 72
urogram of, 71f
Large intestine, 54–55
anal
canal, 55
sphincters, 56
appendix, 54
barium radiograph,
anteroposterior, 56f
cecum, 54
colon, 54
haustra, 55
McBurney’s point, 56
omental appendices, 55
pectinate line, 56
rectum, 55
teniae coli, 55, 57
Larynx, 250–255
arytenoid cartilages, 252
conus elasticus, 253
corniculate cartilages, 252
cricoid cartilage, 252, 254f
cricothyroid ligament
lateral, 253
median, 252
cricotracheal ligament, 252
cuneiform cartilages, 252
epiglottic cartilage, 252
hypoepiglottic ligament,
252
infraglottic cavity, 251
laryngeal
cartilages, 250f
fractures, 253
inlet, 250
prominence, 252
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Larynx (continued)
saccule, 251
ventricle, 251
vestibule, 250
quadrangular membrane, 253
skeleton, 252–253, 254f
thyroepiglottic ligament, 252
thyrohyoid ligament
lateral, 253
median, 253
thyrohyoid membrane, 252,
253
thyroid cartilage, 252, 254f
horns
inferior, 252
superior, 252
laminae, 252
Valsalva maneuver, 251
vocal ligament, 253
Leg, 137–142. See also Lower
limb
compartment syndrome, 140
gastrocnemius strain, 140
plantarflexion, 141
shin splints, 140
Liver, 46f
anatomic lobes, 59
caudate, 59
left, 59
right, 59
quadrate, 59
anterior view, 60f
bare area of, 45, 59
cirrhosis, 60
extrahepatic duct system, 63
falciform ligament, 45, 46f,
60f
functional divisions, 60
Glisson’s capsule, 58
hepatic ducts, 60f
right/left, 59
common, 163
hepatic lobules, 58
peritoneum and, 45
porta hepatis, 59
portal hypertension, 61
portal triads, 58
round ligament, 60f
sagittal fissure
left, 59
right, 59
structure, 58–59
Lower limb, 128f, 131f
adductor canal, 147
areas, 146–147
compartment syndrome,
152
cribriform fascia, 151
crural fascia, 151
extensor retinacula, 151
falciform margin, 151
fascia lata, 150
fascia/connective tissue,
150–151
femoral
canal, 151
ring, 148
sheath, 151
triangle, 146, 147, 148,
148f
iliotibial tract, 150
joints, 153–155
plantar aponeurosis, 151
plantar fascia, 151
popliteal
fascia, 151
fossa, 147
saphenous opening, 151
superficial structures,
149–150
Lung(s), 30
cardiac notch, 30
fissures, horizontal/oblique,
30
hilum of, 30
left, 30
lingula, 30
right, 30
root of, 30
Lymphatics
abdominal, 74–76
lymph nodes, 11
wall, 74
axillary lymph nodes, 11
breast, 11
bronchopulmonary lymph
nodes, 32
cervical, deep, 213
cisterna chyli, 76
esophagus, 74
gall bladder, 76
head, 213
infraclavicular lymph nodes,
11
jugular angle, 17
jugular lymphatic trunk, 213
jugulodigastric node, 248
kidney, 76
large intestine, 75
larynx, 248
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lingual tonsils, 213
liver, 76
lower limb, 149
lungs, 32
lymphatic duct, right, 17, 76
lymphatic plexus, deep, 32
neck, 247–248
ovaries, 91
palatine tonsils, 213, 256
pancreas, 76
parasternal lymph nodes, 11
parathyroid, 248
pelvis, 90–91
penis, 91, 109
pharyngeal tonsils, 213, 256
pharynx, 248
prostate, 91
pulmonary lymph nodes, 32
seminal glands, 91
small intestine, 75
spleen, 75
stomach, 74
subareolar lymphatic plexus,
11
subclavian lymphatic trunk, 11
superficial lymphatic plexus,
32
supraclavicular lymph nodes,
11
suprarenal glands, 76
thoracic duct, 14, 17
thyroid, 248
tracheobronchial lymph nodes,
superior/inferior,
32
tubal tonsils, 213, 256
upper limb, 185
ureters, 76, 91
urethrae, 91
urinary bladder, 90
uterus, 91
vagina, 91
Waldeyer’s Ring, 213
Mediastinum, 18–26
Mouth. See Oral region
Muscle(s)
abdominal wall
cremaster, 37, 42
dartos, 37, 42
external oblique, 37
iliacus, 38
internal oblique, 37
psoas major, 38
psoas minor, 37
269
pyramidalis, 37
quadratus lumborum, 38
rectus abdominis, 37
transverse abdominal, 37
arm, 169–170
anconeus, 170
biceps brachii, 169
brachialis, 169
coracobrachialis, 169
tendonitis of biceps
brachii, 170
triceps brachii, 170
back, 122–124
deep layer, 123–124
extrinsic, 122
iliocostalis, 122
inferior oblique of the
head, 125
intermediate layer,
122–123
interspinales, 123
intertransversarii, 124
intrinsic, 122–124
levator costarum, 124
longissimus, 122
multifidus, 123
rectus capitis posterior
major, 125
rectus capitis posterior
minor, 125
rotators, 123
semispinalis, 123
spinalis, 123
splenius, 122
suboccipital triangle,
124–125
superficial layer, 122
superior oblique of the
head, 125
face, 210–212
buccinator, 211
corrugator supercilii,
211
depressor anguli oris, 212
depressor labii inferioris,
211
levator anguli oris, 211
levator labii superioris,
211
levator labii superioris
alaeque nasii, 211
mentalis, 212
nasalis, 211
occipitofrontalis, 210
orbicularis oculi, 211
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INDEX
Muscle(s) (continued)
orbicularis oris, 211
platysma, 212
procerus, 211
risorius, 212
zygomaticus
major, 211
minor, 211
foot, 143–144
abductor digiti minimi,
144
abductor hallucis, 144
adductor hallucis, 144
dorsal interossei, 144
dorsum, 143
extensor digitorum brevis,
143, 145
extensor hallucis brevis,
144
flexor digiti minimi brevis,
144
flexor digitorum brevis,
144
flexor hallucis brevis, 144
lumbricals, 144
plantar interossei, 144
plantar surface, 144
quadratus plantae, 144
forearm, 174–175
abductor pollicis longus,
175
brachioradialis, 174
extensor carpi radialis
brevis, 175
extensor carpi radialis
longus, 174
extensor carpi ulnaris, 175
extensor digiti minimi,
175
extensor digitorum, 175
extensor indicis, 175
extensor pollicis brevis,
175
extensor pollicis longus,
175
flexor carpi radialis, 174
flexor carpi ulnaris, 174
flexor digitorum
profundus, 174
flexor digitorum
superficialis, 174
flexor pollicis longus, 174
palmaris longus, 174
pronator quadratus, 174
pronator teres, 174
supinator, 175
gluteal region, 129
gluteus
maximus, 129
medius, 129
minimus, 129
inferior gemellus, 129
obturator internus, 129
piriformis, 129
quadratus femoris, 129
superior gemellus, 129
tensor of fascia lata, 129
hand, 180–181
abductor digiti minimi,
181
abductor pollicis, 180
adductor pollicis, 180
dorsal interossei, 181
flexor digiti minimi, 181
flexor pollicis brevis, 180
hypothenar, 181
lumbricals, 181
opponens digiti minimi,
181
opponens pollicis, 180
palmar interossei, 181
thenar, 180–181
head
eyeball muscles, 233f
facial expression, 203
mastication, 203
larynx, 253, 254–255
cricothyroid, 254
cricopharyngeus, 48
lateral cricoarytenoid,
255
oblique arytenoid, 255
posterior cricoarytenoid,
255
thyroarytenoid, 255
transverse arytenoid, 255
vocalis, 254
leg, 139–140
anterior compartment,
139
extensor digitorum
longus, 139
extensor hallucis longus,
139
fibularis
brevis, 139
longus, 139
tertius, 139
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flexor digitorum longus,
140
gastrocnemius, 139, 140
lateral compartment, 139
plantaris, 139
popliteus, 139
posterior compartment,
139
soleus, 139
tibialis anterior, 139
triceps surae, 140
levator ani, 86
tendinous arch of, 86
neck, 244
anterior scalene, 244
digastric, 244
geniohyoid, 244
infrahyoids, 244
longus capitis, 244
longus coli, 244
middle scalene, 244
mylohyoid, 244
omohyoid, 244
posterior scalene, 244
prevertebral, 244
rectus capitis, 244
sternocleidomastoid, 244
sternohyoid, 244
sternothyroid, 244
stylohyoid, 244
suprahyoids, 244
thyrohyoid, 244
torticollis, 245
oral region
lateral pterygoid, 223
masseter, 223
mastication, 223
medial pterygoid, 223
temporalis, 223
orbit, 232
inferior oblique, 232
inferior rectus, 232
levator palpebrae
superioris, 232
medial rectus, 232
superior oblique, 232
superior rectus, 232
superior tarsal, 232
palate, 224
levator palati, 224
musculus uvulae, 224
palatoglossus, 224
palatopharyngeus, 224
tensor palati, 224
271
papillary, 20, 22f
pectinate, 19
pelvis, 85
coccygeus, 85
iliococcygeus, 85
levator ani, 85
obturator internus, 85
piriformis, 85
pubococcygeus, 85
puborectalis, 85
perineum, 112
bulbospongiosus, 112
deep transverse perineal,
112
external anal sphincter,
112
external urethral sphincter,
106, 112
ischiocavernosus, 112
superficial transverse
perineal, 112
pharynx, 257–258, 259
constrictor, 259
inferior, 257
middle, 257
superior, 257
palatopharyngeus,
258
salpingopharyngeus, 256,
258
stylopharyngeus, 258
piriformis, 86
shoulder, 162–164
deltoid, 164, 165
infraspinatus, 164
latissimus dorsi, 163
levator scapulae, 163
pectoralis major, 162
pectoralis minor, 163
rhomboids, 163–164
serratus anterior, 163
paralysis, 164
subclavius, 163
subscapularis, 164
supraspinatus, 164
teres major, 164
teres minor, 164
trapezius, 163
teniae coli, 55, 57
thigh, 133–134
adductor
brevis, 134
longus, 134
magnus, 134, 135
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Muscle(s) (continued)
anterior compartment,
133
biceps femoris, 134
cramp, 135
gracilis, 134, 135
groin pull, 135
hamstrings, 135
iliacus, 133
medial compartment, 134
obturator externus, 134
pectineus, 133
pes anserinus, 135
posterior compartment,
134
psoas major, 133
psoas minor, 133
quadriceps femoris, 135
rectus femoris, 133
sartorius, 133
semimembranosus, 134
semitendinosus, 134
vastus
intermedius, 133
lateralis, 133
medialis, 133
thoracic wall, 3–4
diaphragm, 4
holes in, 5f
intercostal
external, 3
innermost, 3
internal, 3
levator costarum, 4
proximal attachment, 4
serratus posterior
inferior, 4
superior, 4
subcostal, 3
transverse thoracic, 3
tongue, 223–224
extrinsic, 223–224
genioglossus, 223
hyoglossus, 223
intrinsic, 224
palatoglossus, 224
styloglossus, 224
Neck
alimentary structures,
255–259
axillary sheath, 238
carotid sheath, 238
cervical region
anterior, 240–241
lateral, 241–242
posterior, 241
superficial, 238
endocrine organs, 249–250
fascia, 237, 238, 239
deep cervical, 238
investing, 238
pretracheal, 238
prevertebral, 238
goiter, 249
hyoid, fracture, 237
parathyroid, 249
respiratory structures,
250–255
root, 245–246
skeleton, 237
spaces, 237, 238
retropharyngeal, 238
thyroid, 249
tonsillectomy, 248
veins, 240, 242, 245, 246, 247
Waldeyer’s Ring, 248
Nerve(s)
abdominal wall, 39–40
femoral, 40
genitofemoral, 40
iliohypogastric, 40
ilioinguinal, 40
lateral cutaneous nerve of
the thigh, 40
lumbar plexus, 39
lumbosacral trunk, 40
obturator, 40
subcostal, 39
thoracoabdominals, 39
arm, 170–171
axillary, 171
dorsal scapular, 170
lateral cutaneous, 186
lateral pectoral, 171
long thoracic, 170
lower subscapular, 171
medial cutaneous, 186
medial pectoral, 171
median, 171
musculocutaneous, 171
radial, 171
to subclavius, 170
suprascapular, 170
thoracodorsal, 171
thoracodorsal injury, 171
ulnar, 171
upper subscapular, 171
brachial plexus, 188–189
diagram, 190f
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divisions, 189
inferior trunk, 189
lateral cord, 189
medial cord, 189
middle trunk, 189
posterior cord, 189
roots, 188
superior trunk, 189
breast, 10
anterior cutaneous
branch, 10
lateral cutaneous branch,
10
cranial, 203, 204f
abducens, 203
facial, 203, 204
buccal branches,
214
cervical branches,
214
chorda tympani, 227
mandibular branches,
214
temporal branches, 214
zygomatic branches,
214
glossopharyngeal, 203
hypoglossal, 203
oculomotor, 203
olfactory, 203
optic, 203
spinal accessory, 203
trigeminal, 203, 204
trochlear, 203
vagus, 203
vestibulocochlear,
203
esophageal plexus, 48
esophagus, 48
face, 213–214
auriculotemporal, 214
buccal, 214
cervical spinal, 214
external nasal, 214
great auricular, 214
infraorbital, 214
infratrochlear, 214
lacrimal, 214
lesser auricular, 214
mandibular, 214
mental, 214
ophthalmic branches,
213–214
supraorbital, 213
supratrochlear, 213
273
zygomaticofacial, 214
zygomaticotemporal, 214
foot, 145
calcaneal, 145
deep fibular, 145
lateral plantar, 145
medial plantar, 145
medial sural cutaneous,
145
saphenous, 145
superficial fibular, 145
sural, 145
forearm, 176–177
anterior interosseous, 176
deep branch radial, 176
lateral cutaneous, 177, 186
medial cutaneous, 177
median, 176
posterior cutaneous, 176,
186
posterior interosseous, 176
radial, 176
ulnar, 176
gallbladder, 65
genitalia, female, 96, 97, 98,
99, 100
genitalia, male, 41, 102, 103,
104, 106
anterior scrotal, 41
genital branch of
genitofemoral, 41,
42
perineal branches of
posterior femoral
cutaneous, 41
gluteal region, 130
clunial
inferior, 130
middle, 130
superior, 130
gluteal
inferior, 130
superior, 130
iliohypogastric, 130
to obturator internus, 130
posterior femoral
cutaneous, 130
pudendal, 130
to quadratus femoris, 130
sciatic, 130
hand, 182
median, 182
ulnar, 182
heart, 23–24
atrioventricular bundle, 24
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Nerve(s) (continued)
atrioventricular nodes, 24
deep cardiac plexus, 24
right/left bundle branches,
24
sinuatrial nodes, 24
superficial cardiac plexus,
23
visceral afferents of
cardiac plexus, 24
kidneys, 73
large intestine, 58
inferior rectal, 58
larynx, 255
leg, 141
common fibular, 141
deep fibular, 141
lateral sural cutaneous, 141
medial sural cutaneous,
141
posterior femoral
cutaneous, 141
saphenous, 141
superficial fibular, 141
sural, 141
tibial, 141
liver, 61
lower limb, 149–150, 152
common fibular, 152
deep fibular, 150
femoral, 149, 152
genitofemoral, 149
iliohypogastric, 149
ilioinguinal, 149
inferior gluteal, 153
lateral plantar, 150
lateral sural cutaneous,
149
medial plantar, 150
medial sural cutaneous,
149
obturator, 149
saphenous, 149
subcostal, 149
superficial fibular, 150
superior gluteal, 152
sural, 149
tibial, 150
lungs, 31
neck, 240, 245
ansa cervicalis, 245
brachial plexus, 241
cervical plexus, 241
hypoglossal distribution,
246f
left recurrent laryngeal,
245
nerve point, 241
phrenic, 245
right recurrent laryngeal,
245
spinal accessory, 241
suprascapular, 241
sympathetic ganglia, 247
sympathetic trunks, 245,
247
vagus, 245
orbit, 235
ciliary ganglion, 235
ethmoidal, 235
frontal, 235
lacrimal, 235
long ciliary, 235
nasociliary, 235
short ciliary, 235
pancreas, 68
pelvis, 86–87
inferior gluteal, 86
to levator ani, 87
to obturator internus, 87
to piriformis, 87
posterior femoral
cutaneous, 87
pudendal, 86
to quadratus femoris, 87
sacral plexus, 86, 88
sciatic, 86
superior gluteal, 86
perineum
pudendal, 110
pharynx, 258f, 259
posterior mediastinum, 13
pterygopalatine fossa, 218
deep petrosal, 218
greater petrosal, 218
maxillary, 218
pterygoid canal, 218
pterygopalatine ganglion,
218
sacral plexus, 86
shoulder, 164, 165
axillary, 165
dorsal scapular, 165
long thoracic, 164, 165
spinal accessory, 165
supraclavicular, 165
small intestine, 53–54
spinal cord, 118–119
spleen, 69
stomach, 51
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superior mediastinum
left phrenic, 16
left recurrent laryngeal, 16
left vagus, 16
right phrenic, 16
right recurrent laryngeal,
16
right vagus, 16
suprarenal glands, 74
temporal region, 215, 217
auriculotemporal, 217
buccal, 217
inferior alveolar, 217
lingual, 217
mandibular, 215, 217
to mylohyoid, 217
otic ganglion, 217
thigh, 135–136
femoral, 135
genitofemoral, 136
lateral cutaneous, 149
lateral femoral cutaneous,
136
obturator, 135
posterior cutaneous, 150
posterior femoral
cutaneous, 136
sciatic, 136
thoracic wall
intercostal, 6
phrenic nerve injury, 5f
rami communicantes, 6
subcostal, 6
sympathetic trunk, 6
thoracic splanchnic, 6
upper limb, 186
brachial branches
variations, 191
brachial cord variations,
191
brachial division
variations, 191
brachial plexus variations,
191
inferior lateral cutaneous,
186
intercostobrachial, 186
medial cutaneous, 186
median
nerve injury, 191
musculocutaneous
nerve injury, 191
pectoral, 190
radial
nerve injury, 191
275
supraclavicular, 186
terminal branches injury,
191
terminal branches of
median, 186
terminal branches of
radial, 186
terminal branches of
ulnar, 186
ulnar
nerve injury, 191
ureters, 73
urethrae, 95
urinary bladder, 93
Nose, 225–226
bloody, 226
choanae, 225
deviated septum, 226
external, 225
Kiesselbach’s area,
226
lateral walls, 225
meatuses, 225, 226
nares, 225
nasal
cavities, 225
conchae, 225
septum, 225, 226
paranasal sinuses, 226
sphenoethmoidal recess, 225,
226
Oral region, 219–225
cheeks, 219
dental arches, 219
gingivae, 219
lingual frenulum, 220
lips, 219
oral
cavity proper, 219
fissure, 219
vestibule, 219
palate, 220
palatine aponeurosis,
220
parotid
duct, 222
glands, 222
sheath, 222
pharynx
laryngopharynx, 221f
nasopharynx, 221f
oropharynx, 221f
philtrum, 219
salivary glands, 222
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Oral region (continued)
sialography, 223
sphenomandibular ligament,
221
stylomandibular ligament, 221
sublingual
ducts, 222
glands, 222
papilla, 222
submandibular
duct, 222
ganglion, 222
glands, 222
teeth, 219
tongue
foramen cecum, 220
midline groove, 220
terminal groove, 220
tongue tie, 222
uvula, 220
Orbit, 229–230
blowout fracture, 231
bulbar conjunctiva, 230
common tendinous ring,
234
conjunctivitis, 230, 232
exophthalmos, 231
eye, 229–230
choroid, 229
ciliary body, 229
ciliary process, 229
cornea, 229
fovea centralis, 230
iris, 230
macula lutea, 230
movements, 233f, 234
optic disk, 230
ora serrata, 230
sclera, 229
suspensory ligament, 234
eyelids, 228–230
lacrimal
papilla, 229
puncta, 229
medial canthus, 230
orbital septum, 229
palpebrae, 229
palpebral
conjunctiva, 230
ligament, 229
tarsal glands, 229
tarsal plates, 229
fascial sheath, 234
lacrimal
apparatus, 230
canaliculi, 230
caruncle, 230
ducts, 230
glands, 230
lake, 230
sac, 230
lateral check ligament,
234
retina, 231f
Ovaries, 98
broad ligament, 98
ligament of, 98
mesovarium ligament,
98
pampiniform plexus, 98
suspensory ligament, 98
vulva, 91
Pancreas, 46f, 66
accessory pancreatic duct, 66
body, 66
cancer, 67
head of, 60f, 66
hepatopancreatic ampulla, 66
main pancreatic duct, 66
major duodenal papilla, 66
minor duodenal papilla, 66
neck, 66
pancreatic duct sphincter,
66
tail, 66
uncinate process, 66
Pelvis
anorectal junction, 85
area, 77–78
connective tissue, 84–85
fascia, 84–85
endopelvic, 84
parietal layer, 84
prostatic sheath, 85
puboprostatic ligament, 84
pubovesical ligament, 84
rectovesical septum, 85
tendinous arch, 84
visceral layer, 84
female, 101f
radiograph, 101f
greater, 78
greater sciatic foramen, 79, 81
ischiopubic ramus, 81
lesser, 78
lesser sciatic foramen, 79
male, midsagittal, 108f
obturator
canal, 79
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fascia, 86
foramen, 79
pelvic
diaphragm, 86
floor trauma, 86
girdle, 78
inlet, 77
peritoneum of, 83–84
pregnancy and, 78
rectouterine pouch, 83, 84
retropubic space, 78
retrorectal space, 78
sacrospinous ligament, 81,
83
sex differences, 82
supravesical fossa, 83, 84
transverse acetabular
ligament, 79
transverse cervical ligament,
85
vesicouterine pouch, 83
Penile urethra, 106
bulbourethral glands, 106
external urethral sphincter,
106
membranous urethra,
106
urethral glands, 106
Penis, 107, 108
body, 108
corona, 109
corpora cavernosa, 107
corpus spongiosum,
107
deep fascia, 107
ejaculation, 109
erection, 109
fundiform ligament, 109
glans, 109
prepuce, 109
root, 108
suspensory ligament,
109
Pericardial cavity, 18
fibrous pericardium, 18
oblique sinus, 18
parietal layer of serous
pericardium, 18
pericarditis, 19
pericardium, 18
sac, 18
tamponade, 19
transverse sinus, 18
visceral layer of serous
pericardium, 18
277
Perineum
anal triangle, 110
area, 110
deep perineal pouch, 110
episiotomy, 111
fascia/connective tissue, 111
ischioanal fossae, 110
perineal body, 111
perineal membrane, 111
pudendal canal, 110
superficial fascia, membranous
layer, 111
superficial perineal pouch,
110, 111
urogenital triangle, 110
Peritoneal cavity, 42–44
ascending colon, 46f
colic flexure
left, 46f
right, 46f
descending colon, 46f
greater omentum, 46f
greater sac, 43
hepatorenal recess, 43
inferior epigastric vessels, 45
inferior recess of omental
bursa, 46f
infracolic compartment, 43
infracolic spaces, 46f
lesser omentum, 46f
lesser sac, 43
inferior recess of, 43
superior recess of, 43
ligament(s)
coronary, 45
falciform, 45, 46f, 60f
gastrocolic, 45
gastrophrenic, 45
gastrosplenic, 45
hepatoduodenal, 45
hepatogastric, 45
medial umbilical, 47
median umbilical, 47
medial inguinal fossa,
47
mesentery, 46f
omental bursa, 43
omental foramen, 43
paracolic gutters, 43,
46f
parietal peritoneum, 46f
peritoneal folds
lateral umbilical, 45
medial umbilical, 44
median umbilical, 44
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Peritoneal cavity (continued)
peritoneal fossae
lateral inguinal, 44
medial inguinal, 44
supravesical, 44
peritoneal relations, 47
phrenicocolic ligament,
46f
rectovesical pouch, 46f
rectum, 46f, 55
subdivisions of, 46f
subhepatic space, 46f
subphrenic spaces, 43
supracolic compartment, 43,
46f
tenia coli, 46f
transverse colon, 46f
transverse mesocolon,
46f
triangular ligaments, 45
urachus, 47
urinary bladder, 46f
visceral peritoneum,
46f
Peritoneum, 44–45
greater omenta, 45
lesser omenta, 45
liver and, 45
mesentery, 44
parietal peritoneum, 44
peritoneal folds, 44
portal triad, 45
round ligament of liver,
45
visceral peritoneum, 44
Pharynx, 256
auditory tube, 256
fascia, 258
pharyngobasilar, 256, 258
piriform fossa, 257
piriform recess, 256
salpingopharyngeal fold,
256
salpingopharyngeus, 256
swallowing, 257
tonsillar bed, 256
Pleural cavities, 26–27
cervical pleura, 26, 28
costal pleura, 26
costodiaphragmatic recesses,
right/left, 27
costomediastinal recess,
right/left, 27
diaphragmatic pleura, 26
endothoracic fascia, 26
mediastinal pleura, 26
pneumothorax, 28f
pulmonary ligament, 26
visceral pleura, 27
Posterior mediastinum, 13–14
Prostate, 102–104, 105f
enlargement, 105f, 106
Ribs, 1, 3
Scrotum, 37
Seminal glands, 102–103
Shoulder, 157–167
radiograph, 162f
rotator cuff, 165
Small intestine, 51–52
duodenojejunal junction, 52
duodenum, 46f, 51, 60f
ileocecal junction, 52
ileum, 52
jejunum, 52
Spermatic cord, 37, 41–42
autonomics of, 42
ductus deferens, 42
fascial coverings, 41
sensory innervation, 41
Spinal cord
cauda equina, 118
cervical enlargement, 118
dural sac, 118
epidural anesthesia, 121
gray matter, 119
lumbar
cistern, 118
enlargement, 118
puncture, 122
lumbosacral plexus, 118
medullary cone, 118
meninges, 120–121
arachnoid mater, 120, 121
arachnoid trabeculae,
121
denticulate ligaments, 121
dura mater, 120
dural root sheaths, 120
dural sac, 120, 121
epidural space, 120
filum terminale, 121
lumbar cistern, 121
pia mater, 120, 121
subarachnoid space,
121
subdural space, 121
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rami, anterior/posterior, 119
roots, anterior/posterior, 119
spinal block, 122
spinal ganglion, 119
white matter, 119
Spleen, 60f, 68
gastrosplenic ligament, 68
hilum, 68
splenomegaly, 68
splenorenal ligament, 68
Stomach, 46f, 49, 60f
angular incisure, 49
body, 49
cardia, 49
cardial orifice, 49
fundus, 49
greater curvature, 49
lesser curvature, 49
pyloric antrum, 49
pyloric canal, 49
pyloric orifice, 49
pyloric sphincter, 49
pylorospasm, 50
pylorus, 49
rugae, 49
Superior mediastinum, 16–17
Suprarenal glands, 73
cortex, 73
medulla, 73
Testes, 105f, 106–107
pampiniform plexus,
107
tunica vaginalis, 106
Thigh, 132–137
bones, 132
coxa valga, 133
coxa vara, 133
femur, 132
fracture, 133
Thoracic cavity, 11, 12
anterior mediastinum, 12
inferior mediastinum, 12
inferior thoracic aperture, 12
intercostal space, 12
middle mediastinum, 12
posterior mediastinum, 12
superior mediastinum, 12
superior thoracic aperture, 12
thoracic outlet syndrome, 13
Thoracic wall, 1–8
intercostal nerve block, 4f
sternal puncture, 3
thoracocentesis, 4f
279
Thorax
anteroposterior chest
radiograph, 27f
Thymus, 16
Trachea, 16
cartilages, 254f
glottis, 251
rima glottidis, 251
rima vestibuli, 251
vestibular folds, 251
vocal folds, 251, 253
Tracheobronchial tree, 28–29
bronchopulmonary segments,
29
carina, 29
lobar bronchi, right, 29
left, 29
main bronchi, right/left, 29
segmental bronchi, 29
tracheal rings, 28
trachealis, 29
Upper limb, 185–186
anatomic snuff-box, 184
areas, 183–184
arteries, 161f
axilla, 183–184
axilla wounds, 185
bones, 160f
carpal tunnel, 184
syndrome, 185
cubital fossa, 184
deltopectoral triangle, 184
dermatome maps, 187f
fascia/connective tissue, 188
antebrachial, 188
axillary, 188
brachial, 188
clavipectoral, 188
costocoracoid membrane,
188
deltoid, 188
extensor retinaculum, 188
flexor retinaculum, 188
palmar, 188
pectoral, 188
superficial transverse carpal
ligament, 188
suspensory ligament of the
axilla, 188
lower triangular space, 184
quadrangular space, 184
upper triangular space,
184
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INDEX
Ureters, 72
Urethrae, 94
catheterization, 94
female, 94
male, 94
Urinary bladder, 46f, 91–92
apex, 92
body, 91
detrusor muscle, 92
fundus, 92
internal urethral
orifice, 92
sphincter, 92
lymphatics, 90
median umbilical fold, 92
neck, 92
peritoneal relations, 92
urinary trigone, 92
Uterine tubes, 97
Uterus, 97
Vagina, 95, 96
Vein(s)
abdominal wall, 39
arm, 172
azygos, 14
basilic, 185
brachiocephalic
left, 17, 22f
right, 17, 22f
brain, 209
breast, 10
bronchial, right/left, 32
bulbourethral glands, 104
cardiac
anterior, 25
great, 25
middle, 25
small, 25
smallest, 25
cephalic, 185
clitoris, 100
coronary sinus, 25
cubital, median, 185, 186
ductus deferens, 102
ejaculatory ducts, 103
esophagus, 48
face, 213
female genitalia
external, 99
internal, 96
foot, 146
forearm, 177
median, 185
gallbladder, 65
gastric
left, 50
right, 50
gastro-omental
left, 50
right, 50
genitalia, female, 96, 97, 98,
99, 100
genitalia, male, 102, 103, 104,
106
gluteal region, 132
gonadal, 72
hand, 183
hemiazygos, 14
accessory, 14
hepatic, 61
inferior epigastric vessels, 45
jugular
anterior, 240
external, 242
internal, 240
jugular venous arch, 246
large intestine, 57
larynx, 251
leg, 142
lingual, deep, 222
lower limb, 149
lungs, 31–32
marginal, left, 25
medullary, 120
mesenteric
inferior, 60f
superior, 60f, 62f
neck, 240, 242, 245, 246, 247
oblique vein of left atrium, 25
ophthalmic
inferior, 235
superior, 235
orbit, 235
ovaries, 98
pampiniform plexus, 39, 42
pancreas, 67
pelvis, 89
penile urethra, 106
penis, 107
perforating, 149
portal, 60f, 61, 62f
left branches, 60f
right branches, 60f
prostate, 104
pterygoid venous plexus, 216
pudendal, 110
pulmonary, right/left, 31
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radicular, 120
renal, 72
retina, central, 235
saphenous
great, 149, 150
small, 149
scleral venous sinus, 235
seminal glands, 102
short, 50
small intestine, 53
spinal
anterior, 120
posterior, 120
spinal cord, 120
splenic, 60f, 62f, 69
stomach, 50
subclavian, 240, 242, 247
suprarenal
left, 74
right, 74
temporal region, 216
testes, 107
thigh, 137
thoracic wall, 6
upper limb, 185
urethrae, 95
urinary bladder, 93
uterine tubes, 97
uterus, 96
vagina, 96
vena cava
inferior, 22f
superior, 17
venous angle, 246
venous arch, dorsal, 149
venous network, dorsal, 185
ventricular, left posterior, 25
vertebral venous plexus,
internal, 120
vestibule bulbs, 100
vorticose, 235
Vertebrae column, 113, 114–115
alar ligaments, 117
281
anulus fibrosis, 117
appendicular skeleton, 113
atlanto-occipital membranes,
anterior/posterior,
117
axial skeleton, 113
cervical, 115
coccygeal, 115
cruciform ligament, 117
curvatures, 113, 114f
cervical, 113
excess, 114
lumbar, 113
sacral, 113
thoracic, 113
diagram, 116f
interspinous ligament, 118
intertransverse ligaments, 118
intervertebral discs, 117
intervertebral foramina, 115
kyphosis, 114, 114f
ligamentum flavum, 117
ligamentum nuchae, 118
longitudinal bands, 117
longitudinal ligaments, anterior/
posterior, 117
lordosis, 114, 114f
lumbar, 115
nucleus pulposus, 117
ruptured disc, 118
sacral, 115
scoliosis, 114, 114f
slipped disc, 118
spina bifida, 116
supraspinous ligament, 118
tectorial membrane, 117
thoracic, 115
transverse ligament of the
atlas, 117
vertebra prominens, 115
Vestibular glands, 100
Vestibule bulbs, 100
Vulva, ovaries, 91
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