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Heart Anatomy
• Approximately the size of a fist
• Location
In the mediastinum between second rib and
fifth intercostal space
Directly on top of the diaphragm
Two-thirds to the left of the midsternal
line
In front of the vertebral column, behind the
sternum
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• Enclosed in pericardium, a double-walled sac
Midsternal line
2nd rib
Sternum
Diaphragm
(a)
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Point of
maximal
intensity
(PMI)
Figure 18.1a
Pericardium
• Outer layer is a tough, dense fibrous layer
Protects, anchors, and prevents overfilling
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Pericardium
Double-walled sac that encloses the heart
Inner Layer:
Parietal layer lines the internal surface of
the fibrous pericardium
Visceral layer (epicardium) on external
surface of the heart
Separated by fluid-filled pericardial cavity
(decreases friction)
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The pericardium….
…you’ve got it in the bag!
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Pericarditis – Inflammation of the pericardium
• Roughens the serous membrane surfaces
• Causes the beating heart to rub against
pericardial sac
• Creates a pericardial friction rub heard with a
stethoscope
• Can cause sever pain and inflammatory build up
of fluid putting pressure on the heart causing a
condition known as cardiac tamponade
Treated by inserting a needle into the
pericardial cavity and draining off excess fluid
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Pericarditits
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Layers of the Heart Wall
1. Epicardium— Outer,
visceral layer of the
serous pericardium
2. Myocardium – Middle
muscular layer
•
Forms the bulk of the
heart
3. Endocardium - Lines the
chambers of the heart
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Pulmonary
trunk
Pericardium
Myocardium
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Fibrous pericardium
Parietal layer of
serous pericardium
Pericardial cavity
Epicardium
(visceral layer Heart
of serous
wall
pericardium)
Myocardium
Endocardium
Heart chamber
Figure 18.2
Cardiac
muscle
bundles
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Figure 18.3
4 Chambers of the Heart
• 2 Atria superiorily
• 2 Ventricles inferiorily
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Chambers
The Atria
Separated internally by the interatrial
septum
Coronary sulcus (atrioventricular groove)
encircles the junction of the atria and
ventricles
Auricles increase atrial volume
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Chambers
The ventricles
Separated by the interventricular septum
Anterior and posterior interventricular sulci
mark the position of the septum externally
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Brachiocephalic trunk
Superior vena cava
Right pulmonary
artery
Ascending aorta
Pulmonary trunk
Right pulmonary
veins
Right atrium
Right coronary artery
(in coronary sulcus)
Anterior cardiac vein
Right ventricle
Right marginal artery
Small cardiac vein
Inferior vena cava
(b) Anterior view
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Left common carotid
artery
Left subclavian artery
Aortic arch
Ligamentum arteriosum
Left pulmonary artery
Left pulmonary veins
Auricle of
left atrium
Circumflex artery
Left coronary artery
(in coronary sulcus)
Left ventricle
Great cardiac vein
Anterior interventricular
artery (in anterior
interventricular sulcus)
Apex
Figure 18.4b
Atria: The Receiving Chambers
• Walls are ridged by pectinate muscles
• Vessels entering right atrium
Superior vena cava
Inferior vena cava
Coronary sinus
• Vessels entering left atrium
Right and left pulmonary veins
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Ventricles: The Discharging Chambers
• Walls are ridged by trabeculae carneae
• Papillary muscles project into the
ventricular cavities
• Vessel leaving the right ventricle
• Pulmonary trunk
• Vessel leaving the left ventricle
• Aorta
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Aorta
Superior vena cava
Right pulmonary
artery
Pulmonary trunk
Right atrium
Right pulmonary
veins
Fossa ovalis
Pectinate muscles
Tricuspid valve
Right ventricle
Chordae tendineae
Trabeculae carneae
Inferior vena cava
Left pulmonary
artery
Left atrium
Left pulmonary
veins
Mitral (bicuspid)
valve
Aortic valve
Pulmonary valve
Left ventricle
Papillary muscle
Interventricular
septum
Epicardium
Myocardium
Endocardium
(e) Frontal section
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Figure 18.4e
Heart Valves
• Ensure unidirectional blood flow through the heart
• Atrioventricular (AV) valves
• Prevent backflow into the atria when ventricles
contract
• Tricuspid valve (right)
• Mitral valve (left)
• Chordae tendineae anchor AV valve cusps to
papillary muscles
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Heart Valves
• Semilunar (SL) valves
• Prevent backflow into the ventricles when
ventricles relax
• Aortic semilunar valve
• Pulmonary semilunar valve
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Myocardium Pulmonary valve
Aortic valve
Tricuspid
Area of cutaway
(right atrioventricular)
Mitral valve
valve
Tricuspid valve
Mitral
(left atrioventricular)
valve
Aortic
valve
Myocardium
Tricuspid
(right atrioventricular)
valve
Mitral
(left atrioventricular)
valve
Aortic valve
Pulmonary
valve
Fibrous
skeleton
(a)
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Pulmonary valve
Aortic valve
Area of cutaway
(b)
Pulmonary
valve
Mitral valve
Tricuspid
valve
Anterior
Figure 18.8a
Myocardium
Tricuspid
(right atrioventricular)
valve
Mitral
(left atrioventricular)
valve
Aortic
valve
Pulmonary
valve
Pulmonary valve
Aortic valve
Area of cutaway
(b)
Mitral valve
Tricuspid valve
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Figure 18.8b
Pulmonary
valve
Aortic
valve
Area of
cutaway
Mitral
valve
Tricuspid
valve
Chordae tendineae
attached to tricuspid valve flap
(c)
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Papillary
muscle
Figure 18.8c
Opening of inferior
vena cava
Tricuspid valve
Mitral valve
Chordae
tendineae
Myocardium
of right
ventricle
Myocardium
of left ventricle
Papillary
muscles
(d)
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Interventricular
septum
Pulmonary
valve
Aortic valve
Area of
cutaway
Mitral valve
Tricuspid
valve
Figure 18.8d
1 Blood returning to the
Direction of
blood flow
heart fills atria, putting
pressure against
atrioventricular valves;
atrioventricular valves are
forced open.
Atrium
Cusp of
atrioventricular
valve (open)
2 As ventricles fill,
atrioventricular valve flaps
hang limply into ventricles.
Chordae
tendineae
3 Atria contract, forcing
additional blood into ventricles.
Ventricle
Papillary
muscle
(a) AV valves open; atrial pressure greater than ventricular pressure
Atrium
1 Ventricles contract, forcing
blood against atrioventricular
valve cusps.
2 Atrioventricular valves
close.
3 Papillary muscles
contract and chordae
tendineae tighten,
preventing valve flaps
from everting into atria.
Cusps of
atrioventricular
valve (closed)
Blood in
ventricle
(b) AV valves closed; atrial pressure less than ventricular pressure
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Figure 18.9
Aorta
Pulmonary
trunk
As ventricles
contract and
intraventricular
pressure rises,
blood is pushed up
against semilunar
valves, forcing them
open.
(a) Semilunar valves open
As ventricles relax
and intraventricular
pressure falls, blood
flows back from
arteries, filling the
cusps of semilunar
valves and forcing
them to close.
(b) Semilunar valves closed
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Figure 18.10
Pathway of Blood Through the Heart
The heart is actually two side-by-side pumps
• Right side is the pump for the pulmonary circuit
Vessels that carry blood to and from the lungs
• Left side is the pump for the systemic circuit
Vessels that carry the blood to and from all
body tissues
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Pulmonary
Circuit
Pulmonary arteries
Venae cavae
Capillary beds
of lungs where
gas exchange
occurs
Pulmonary veins
Aorta and branches
Left atrium
Left ventricle
Right atrium
Right ventricle
Oxygen-rich,
CO2-poor blood
Oxygen-poor,
CO2-rich blood
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Heart
Systemic
Circuit
Capillary beds of all
body tissues where
gas exchange occurs
Figure 18.5
Pathway of Blood Through the Heart
• Right atrium  tricuspid valve  right
ventricle
• Right ventricle  pulmonary semilunar valve
 pulmonary trunk  pulmonary arteries 
lungs
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Pathway of Blood Through the Heart
• Lungs  pulmonary veins  left atrium
• Left atrium  bicuspid valve  left
ventricle
• Left ventricle  aortic semilunar valve 
aorta
• Aorta  systemic circulation
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Hmmm….
Notice Something Funny?
What do arteries usually carry?
What do veins usually carry?
What’s going on in the heart?
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Pathway of Blood Through the Heart
• Equal volumes of blood are pumped to the
pulmonary and systemic circuits
• Pulmonary circuit is a short, low-pressure
circulation
• Systemic circuit blood encounters much
resistance in the long pathways
• Anatomy of the ventricles reflects these
differences
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Left
ventricle
Right
ventricle
Interventricular
septum
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Figure 18.6
Coronary Circulation
• The functional blood supply to the heart
muscle itself
• Arterial supply varies considerably and
contains many anastomoses (junctions)
among branches
• Collateral routes provide additional routes
for blood delivery
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Coronary Circulation
• Arteries
• Right and left coronary (in atrioventricular
groove), marginal, circumflex, and anterior
interventricular arteries
• Veins
• Small cardiac, anterior cardiac, and great
cardiac veins
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Superior
vena cava
Anastomosis
(junction of
vessels)
Right
atrium
Aorta
Pulmonary
trunk
Left atrium
Left
coronary
artery
Circumflex
artery
Right
coronary
Left
artery
ventricle
Right
ventricle
Anterior
Right
interventricular
marginal Posterior
artery
artery
interventricular
artery
(a) The major coronary arteries
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Figure 18.7a
Superior
vena cava
Anterior
cardiac
veins
Great
cardiac
vein
Coronary
sinus
Small cardiac vein
Middle cardiac vein
(b) The major cardiac veins
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Figure 18.7b
Aorta
Left pulmonary
artery
Superior vena cava
Left pulmonary
veins
Auricle of left
atrium
Left atrium
Great cardiac
vein
Right pulmonary veins
Posterior vein
of left ventricle
Left ventricle
Apex
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Right pulmonary artery
Right atrium
Inferior vena cava
Coronary sinus
Right coronary artery
(in coronary sulcus)
Posterior
interventricular
artery (in posterior
interventricular sulcus)
Middle cardiac vein
Right ventricle
(d) Posterior surface view
Figure 18.4d
Homeostatic Imbalances
• Angina pectoris
• Thoracic pain caused by a fleeting
deficiency in blood delivery to the
myocardium
• Cells are weakened
• Myocardial infarction (heart attack)
• Prolonged coronary blockage
• Areas of cell death are repaired with
noncontractile scar tissue
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