![Introductio to Splanchnology](http://s1.studyres.com/store/data/000623849_1-146c07f08b3c84794017d10bd7ed35fe-300x300.png)
Introductio to Splanchnology
... Position: extends from the lower border of cricoid cartilage to the level of sternal angle (between T4-T5 vertebrae) where it divides into right and left principal bronchi Structure features Consists of about 16-20 Cshaped incomplete tracheal cartilages for patency connected by smooth muscle and c ...
... Position: extends from the lower border of cricoid cartilage to the level of sternal angle (between T4-T5 vertebrae) where it divides into right and left principal bronchi Structure features Consists of about 16-20 Cshaped incomplete tracheal cartilages for patency connected by smooth muscle and c ...
The Respiratory System
... Position: extends from the lower border of cricoid cartilage to the level of sternal angle (between T4-T5 vertebrae) where it divides into right and left principal bronchi Structure features Consists of about 16-20 Cshaped incomplete tracheal cartilages for patency connected by smooth muscle and c ...
... Position: extends from the lower border of cricoid cartilage to the level of sternal angle (between T4-T5 vertebrae) where it divides into right and left principal bronchi Structure features Consists of about 16-20 Cshaped incomplete tracheal cartilages for patency connected by smooth muscle and c ...
Thoracic wall, abdominal region, muscles
... 3) Intercostal muscles(External, internal and innermost) 4) Subcostal muscle 5) Transverse thoracic muscle These muscles either elevate or depress the ribs helping to increse the volume of the thoracic cavity. The diaphragm is a shared wall (actually floor/ceiling) separating the thorax and abdomen. ...
... 3) Intercostal muscles(External, internal and innermost) 4) Subcostal muscle 5) Transverse thoracic muscle These muscles either elevate or depress the ribs helping to increse the volume of the thoracic cavity. The diaphragm is a shared wall (actually floor/ceiling) separating the thorax and abdomen. ...
No. 27
... It runs horizontally to the lateral and then upward to the lateral sulcus in which it courses laterally and backward to the dorsolateral surface of the cerebral hemisphere. Its cortical branches supply the most part of the dorsolateral surface of the cerebral hemisphere and insula which are the high ...
... It runs horizontally to the lateral and then upward to the lateral sulcus in which it courses laterally and backward to the dorsolateral surface of the cerebral hemisphere. Its cortical branches supply the most part of the dorsolateral surface of the cerebral hemisphere and insula which are the high ...
Frontal Lobe
... • In 1952, Bror Rexed, a Swedish neuroanatomist, devised a system for subdividing the spinal gray matter into layers or laminae, based upon differences in cytoarchitecture • Scheme was initially developed for animal models, but is widely used in discussions of the human spinal cord • Ten different l ...
... • In 1952, Bror Rexed, a Swedish neuroanatomist, devised a system for subdividing the spinal gray matter into layers or laminae, based upon differences in cytoarchitecture • Scheme was initially developed for animal models, but is widely used in discussions of the human spinal cord • Ten different l ...
Ⅰ.In the following questions, selecting the best response :( 1 marks
... A. it is situated in the left lower part of thoracic cavity B. its long axis is along the 10th rib C. usually it is palpable below the left costal arch D. splenic notches are on its anterior extremity E. the hilum of spleen is located on the diaphragmatic surface ...
... A. it is situated in the left lower part of thoracic cavity B. its long axis is along the 10th rib C. usually it is palpable below the left costal arch D. splenic notches are on its anterior extremity E. the hilum of spleen is located on the diaphragmatic surface ...
Unit 29: Posterior Abdominal Wall
... esophagus are the vagus nerves and esophageal branches of the left gastric vessels. The left and right crura are connected anterior to the aorta by the median arcuate ligament, forming the aortic hiatus, which transmits the aorta, thoracic duct (Plates 246, 249, 300, 325; 1.78, 1.80) and azygos vein ...
... esophagus are the vagus nerves and esophageal branches of the left gastric vessels. The left and right crura are connected anterior to the aorta by the median arcuate ligament, forming the aortic hiatus, which transmits the aorta, thoracic duct (Plates 246, 249, 300, 325; 1.78, 1.80) and azygos vein ...
Joint Anatomy and Articulation Refrence
... gliding of the articular processes of the vertebrae (protrusions at the top and bottom of each vertebrae) upon one another. The range of movement of each individual spinal (vertebral) joint is very small. However, when many vertebrae are involved at one time, the total movement of all the joints can ...
... gliding of the articular processes of the vertebrae (protrusions at the top and bottom of each vertebrae) upon one another. The range of movement of each individual spinal (vertebral) joint is very small. However, when many vertebrae are involved at one time, the total movement of all the joints can ...
Nervous System (Complete)
... foramina. After emerging from the intervertebral foramen, each spinal nerve gives of a recumbent meningeal branch and divides into an anterior or ventral ramus and a posterior or dorsal ramus. Each ramus contains both efferent and afferent fibers. ...
... foramina. After emerging from the intervertebral foramen, each spinal nerve gives of a recumbent meningeal branch and divides into an anterior or ventral ramus and a posterior or dorsal ramus. Each ramus contains both efferent and afferent fibers. ...
7. Axial Skeleton
... although this number varies in some individuals. A larger number of bones appear to be present at birth, but the total number decreases with growth and maturity as some separate bones fuse. Bones differ in size, shape, weight, and even composition, and this diversity is directly related to the skele ...
... although this number varies in some individuals. A larger number of bones appear to be present at birth, but the total number decreases with growth and maturity as some separate bones fuse. Bones differ in size, shape, weight, and even composition, and this diversity is directly related to the skele ...
PERITONEUM and TORSION of GUT TUBE
... Travels through psoas major. Divides into genital and femoral branches. ...
... Travels through psoas major. Divides into genital and femoral branches. ...
R b c5 2 Q
... 1. The outline is horseshoe-shaped from the tip of one mastoid process over the vertex to the tip of the other. 2. At the base of the skull, the outline is nearly straight from one mastoid process to the other, except where the occipital condyles project downward. On each side, it crosses two groove ...
... 1. The outline is horseshoe-shaped from the tip of one mastoid process over the vertex to the tip of the other. 2. At the base of the skull, the outline is nearly straight from one mastoid process to the other, except where the occipital condyles project downward. On each side, it crosses two groove ...
PERITONEUM and TORSION of GUT TUBE
... Travels through psoas major. Divides into genital and femoral branches. ...
... Travels through psoas major. Divides into genital and femoral branches. ...
The lower leg is formed by the tibia and fibula which articulate
... lost from competition or practice. Most injuries to the ankle involve the lateral ligaments which are made up of the posterior talofibular, anterior talofibular, and calcaneofibular ligaments. Ankle sprains less commonly seen involve the medial “deltoid” ankle ligaments made up of the anterior tibio ...
... lost from competition or practice. Most injuries to the ankle involve the lateral ligaments which are made up of the posterior talofibular, anterior talofibular, and calcaneofibular ligaments. Ankle sprains less commonly seen involve the medial “deltoid” ankle ligaments made up of the anterior tibio ...
Anterior Cervical Region - Yeditepe University Dentistry Anatomy
... Anterior Cervical Region The anterior cervical region (anterior triangle) has the following: An anterior boundary formed by the median line of the neck. A posterior boundary formed by the anterior border of the SCM. A superior boundary formed by the inferior border of the mandible. An apex located ...
... Anterior Cervical Region The anterior cervical region (anterior triangle) has the following: An anterior boundary formed by the median line of the neck. A posterior boundary formed by the anterior border of the SCM. A superior boundary formed by the inferior border of the mandible. An apex located ...
Body Planes, Directions, & Cavities
... write: 1 cm. laceration on the right anterior forearm, distal to the elbow. ...
... write: 1 cm. laceration on the right anterior forearm, distal to the elbow. ...
Deep Cervical Fascia
... 1.The subcutaneous tissue nerves, veins of the neck, 2.The main anatomical potential space in the neck which lead to Spread Infections to the mediastinum. 3.Three major fascial compartments of the neck 4.Where the viscera of the neck are located. ...
... 1.The subcutaneous tissue nerves, veins of the neck, 2.The main anatomical potential space in the neck which lead to Spread Infections to the mediastinum. 3.Three major fascial compartments of the neck 4.Where the viscera of the neck are located. ...
The Humerus - Deranged Physiology
... This document was created by Alex Yartsev ([email protected]); if I have used your data or images and forgot to reference you, please email me. ...
... This document was created by Alex Yartsev ([email protected]); if I have used your data or images and forgot to reference you, please email me. ...
Upper Trapezius
... margin of the medial portion of the clavicle Sternal portion: lateral margin of the manubrium and body of the sternum and cartilage of the first 6-7 ribs ...
... margin of the medial portion of the clavicle Sternal portion: lateral margin of the manubrium and body of the sternum and cartilage of the first 6-7 ribs ...
Anatomy: Skeletal System
... This is an image of a spiral fracture. Note the wavy appearance of the fracture due to torque through the bone. You often see spiral fractures in children when they twist an ankle or knee. This can be extremely alarming because a spiral fracture in children who are not yet walking can be due to chil ...
... This is an image of a spiral fracture. Note the wavy appearance of the fracture due to torque through the bone. You often see spiral fractures in children when they twist an ankle or knee. This can be extremely alarming because a spiral fracture in children who are not yet walking can be due to chil ...
The Musculi Suboccipitales of the Formosan Monkey
... passes in medio-upward direction across the dorsal surface of the belly of M. obliquus capitis inferior, M. rectus capitis posterior major and M. rectus capitis posterior minor, but during its course branches are given off to these muscles. On the other hand, the branch of the A. vertebralis which e ...
... passes in medio-upward direction across the dorsal surface of the belly of M. obliquus capitis inferior, M. rectus capitis posterior major and M. rectus capitis posterior minor, but during its course branches are given off to these muscles. On the other hand, the branch of the A. vertebralis which e ...
The Musculi Suboccipitales of the Formosan Monkey
... passes in medio-upward direction across the dorsal surface of the belly of M. obliquus capitis inferior, M. rectus capitis posterior major and M. rectus capitis posterior minor, but during its course branches are given off to these muscles. On the other hand, the branch of the A. vertebralis which e ...
... passes in medio-upward direction across the dorsal surface of the belly of M. obliquus capitis inferior, M. rectus capitis posterior major and M. rectus capitis posterior minor, but during its course branches are given off to these muscles. On the other hand, the branch of the A. vertebralis which e ...
FUNCTIONAL ANATOMY John Christiansen, PT, OCS, ATC
... I: lesser tuberosity I: subscapular nerves (C5,6,7) A: shoulder adduction, interior rotation b. Supraspinatus-O: supraspinous fossa I: upper facet of greater tuberosity I: suprascapular nerve (C4,5,6) A: initiates abduction c. Infraspinatus- O: infraspinous fossa I: middle facet of greater tuberosit ...
... I: lesser tuberosity I: subscapular nerves (C5,6,7) A: shoulder adduction, interior rotation b. Supraspinatus-O: supraspinous fossa I: upper facet of greater tuberosity I: suprascapular nerve (C4,5,6) A: initiates abduction c. Infraspinatus- O: infraspinous fossa I: middle facet of greater tuberosit ...
Chapter 9: Articulations
... 4. interspinous ligament (connects spinous processes) 5. supraspinous ligament (connects tips of spinous processes, C7 to sacrum) 6. ligamentum nuchae (contiguous with supraspinous ligament, C7 to skull) ...
... 4. interspinous ligament (connects spinous processes) 5. supraspinous ligament (connects tips of spinous processes, C7 to sacrum) 6. ligamentum nuchae (contiguous with supraspinous ligament, C7 to skull) ...
Vertebra
![](https://commons.wikimedia.org/wiki/Special:FilePath/Vertebra_Superior_View.jpg?width=300)
In the vertebrate spinal column, each vertebra is an irregular bone with a complex structure composed of bone and some hyaline cartilage, the proportions of which vary according to the segment of the backbone and the species of vertebrate animal.The basic configuration of a vertebra varies; the large part is the body, and the central part is the centrum. The upper and lower surfaces of the vertebra body give attachment to the intervertebral discs. The posterior part of a vertebra forms a vertebral arch, in eleven parts, consisting of two pedicles, two laminae, and seven processes. The laminae give attachment to the ligamenta flava. There are vertebral notches formed from the shape of the pedicles, which form the intervertebral foramina when the vertebrae articulate. These foramina are the entry and exit conducts for the spinal nerves. The body of the vertebra and the vertebral arch form the vertebral foramen, the larger, central opening that accommodates the spinal canal, which encloses and protects the spinal cord.Vertebrae articulate with each other to give strength and flexibility to the spinal column, and the shape at their back and front aspects determines the range of movement. Structurally, vertebrae are essentially alike across the vertebrate species, with the greatest difference seen between an aquatic animal and other vertebrate animals. As such, vertebrates take their name from the vertebrae that compose the vertebral column.