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Steve`s Anatomy of the Thorax
... 12. Explain the physiology of lymph formation, the structure and functions of lymph nodes, the importance of lymphatic drainage in the dissemination of cancers and infections and the main pathways for lymphatic drainage of the body. 13. Demonstrate the intrathoracic positions and relations of the tr ...
... 12. Explain the physiology of lymph formation, the structure and functions of lymph nodes, the importance of lymphatic drainage in the dissemination of cancers and infections and the main pathways for lymphatic drainage of the body. 13. Demonstrate the intrathoracic positions and relations of the tr ...
Cerebrovascular Anatomy 2016
... A 52 yo male presents with 2 hours of dizziness, hoarsness, dysarthria, and R sided numbness. Exam is notable for small L ptosis and miosis, L ataxia on FTN and HTS, and loss of pin-prick sensation on the L face and R arm and leg. NIHSS is 6. He is not on any medications. There are no contraindicati ...
... A 52 yo male presents with 2 hours of dizziness, hoarsness, dysarthria, and R sided numbness. Exam is notable for small L ptosis and miosis, L ataxia on FTN and HTS, and loss of pin-prick sensation on the L face and R arm and leg. NIHSS is 6. He is not on any medications. There are no contraindicati ...
Acland`s DVD Atlas of Human Anatomy Transcript for Volume 3
... Here’s a typical cervical vertebra, the fourth one. The body is small. The upper surface of the body is curved, somewhat in the shape of a saddle. The lower surface has the same curvature in reverse. ...
... Here’s a typical cervical vertebra, the fourth one. The body is small. The upper surface of the body is curved, somewhat in the shape of a saddle. The lower surface has the same curvature in reverse. ...
Development of the mandible
... developed forward, backward and upward, to form the symphysis and the mandibular body respectively, following the path way of the incisive and the inferior alveolar nerve. ...
... developed forward, backward and upward, to form the symphysis and the mandibular body respectively, following the path way of the incisive and the inferior alveolar nerve. ...
BIOL 4260 Human Evolu*onary Anatomy Lecture 11: Nervous
... Loosely-linked elements provide mobility by summing slight movements at each successive joint ...
... Loosely-linked elements provide mobility by summing slight movements at each successive joint ...
occlusion - WordPress.com
... Identify: capsule, synovial membrane, ligament and articulating disc Describe the muscles and the movements that take place in the joint Describe the nerve and blood supply to the joint Explain how dislocation of the joint can occur ...
... Identify: capsule, synovial membrane, ligament and articulating disc Describe the muscles and the movements that take place in the joint Describe the nerve and blood supply to the joint Explain how dislocation of the joint can occur ...
Treatment of the Dura for Concussion
... • On the side of a cervical area posi6ve Dural listening test, first check the arm ROM. • With the pa6ent side lying, treatment side up, place your relaxed thumb near the top of the axilla, just behind pec. minor. Use your other hand on the shoulder to add a slight compression, while gent ...
... • On the side of a cervical area posi6ve Dural listening test, first check the arm ROM. • With the pa6ent side lying, treatment side up, place your relaxed thumb near the top of the axilla, just behind pec. minor. Use your other hand on the shoulder to add a slight compression, while gent ...
bones of the appendicular skeleton
... The appendicular skeleton is composed of the 126 bones of the appendages and the pectoral and pelvic girdles, which attach the limbs to the axial skeleton. Although the bones of the upper and lower limbs differ in their functions and mobility, they have the same fundamental plan – each limb is compo ...
... The appendicular skeleton is composed of the 126 bones of the appendages and the pectoral and pelvic girdles, which attach the limbs to the axial skeleton. Although the bones of the upper and lower limbs differ in their functions and mobility, they have the same fundamental plan – each limb is compo ...
Dissection of Intercostal Spaces
... Remove the anterior intercostal membrance to expose the underlying portion of the internal intercostal muscle between the costochondral junction and sternum. Note that the fibers of the internal intercostal muscle are directed at right angles to the external intercostal fibers and pass downward and ...
... Remove the anterior intercostal membrance to expose the underlying portion of the internal intercostal muscle between the costochondral junction and sternum. Note that the fibers of the internal intercostal muscle are directed at right angles to the external intercostal fibers and pass downward and ...
Document
... pterygoids are firmly attached to its lateral surface. Along the dorsal surface of the basisphenoid capsule and the parasphenoid process pass two high crests, separated from each other by a shallow furrow. The orbitosphenoids (fig. 3) are very small, of semilunar shape. They are articulated with the ...
... pterygoids are firmly attached to its lateral surface. Along the dorsal surface of the basisphenoid capsule and the parasphenoid process pass two high crests, separated from each other by a shallow furrow. The orbitosphenoids (fig. 3) are very small, of semilunar shape. They are articulated with the ...
03 Pelvic walls, joints, vessels & nerves[1].
... • Two hip bones, which form the anterior and lateral walls. • Sacrum and coccyx, which form the posterior wall. • These 4 bones are connected by 4 joints and lined by 4 muscles. • The bony pelvis with its joints and muscles form a strong basin-shaped structure (with multiple foramina), • The pelvis ...
... • Two hip bones, which form the anterior and lateral walls. • Sacrum and coccyx, which form the posterior wall. • These 4 bones are connected by 4 joints and lined by 4 muscles. • The bony pelvis with its joints and muscles form a strong basin-shaped structure (with multiple foramina), • The pelvis ...
Scapular_region_true_false_with_explanation
... 15. False. The upper lateral cutaneous nerve of the arm is a continuation of the axillary nerve. The dorsal scapular terminates in muscular branches to rhomboids and levator scapulae. “The upper lateral cutaneous nerve of the arm can be used to test the intergrity of the dorsal scapular nerve.” 16. ...
... 15. False. The upper lateral cutaneous nerve of the arm is a continuation of the axillary nerve. The dorsal scapular terminates in muscular branches to rhomboids and levator scapulae. “The upper lateral cutaneous nerve of the arm can be used to test the intergrity of the dorsal scapular nerve.” 16. ...
nasal cavity paranasal sinuses
... Sagittal Sinus. This can be a route of transmission of infection to the cranial cavity. ...
... Sagittal Sinus. This can be a route of transmission of infection to the cranial cavity. ...
3...deep muscles of the gluteal region?
... clunial nerves Medial clunial nerves Inferior clunial nerves ...
... clunial nerves Medial clunial nerves Inferior clunial nerves ...
Anatomy of Oesophagus
... two by the in growth of two lateral septa, which fuse giving rise to trachea in front and oesophagus behind. The last parts to fuse are lowest or most distal parts of the two septa. At this stage the oesophagus becomes converted into a solid rod of cells, losing its tubular nature. This eventually b ...
... two by the in growth of two lateral septa, which fuse giving rise to trachea in front and oesophagus behind. The last parts to fuse are lowest or most distal parts of the two septa. At this stage the oesophagus becomes converted into a solid rod of cells, losing its tubular nature. This eventually b ...
The vertebral column of the genus Dicraeosaurus
... Concerning the left hind limb: it might well be possible that it was not disconnected after the positioning, but, like the proximal part of the neck, fell into its two parts which were then separated from each other prior to the final positioning of the skeleton. ...
... Concerning the left hind limb: it might well be possible that it was not disconnected after the positioning, but, like the proximal part of the neck, fell into its two parts which were then separated from each other prior to the final positioning of the skeleton. ...
PALAEONTOGRAPHICA
... the left hind limb: it might well be possible that it was not disconnected after the positioning, but, like the proximal part of the neck, fell into its two parts which were then separated from each other prior to the final positioning of the skeleton. ...
... the left hind limb: it might well be possible that it was not disconnected after the positioning, but, like the proximal part of the neck, fell into its two parts which were then separated from each other prior to the final positioning of the skeleton. ...
Localization of Brain Stem Lesions
... 19. Crus cerebri 20. Optic nerve 21. Optic tract 22. Lateral geniculate body 23. Leminiscal trigone 24. Middle cerebellar peduncle 25. Inferior cerebellar peduncle ...
... 19. Crus cerebri 20. Optic nerve 21. Optic tract 22. Lateral geniculate body 23. Leminiscal trigone 24. Middle cerebellar peduncle 25. Inferior cerebellar peduncle ...
Female - WordPress.com
... uterus itself is most commonly flopped anteriorly onto the superior vesical surface. Other uterine orientations are possible. Most commonly, the angle of the vaginal canal is 45° to the angle of the uterus. Anteflexion: the long axis of uterus is bent anteriorly relative to that of the cervix An ...
... uterus itself is most commonly flopped anteriorly onto the superior vesical surface. Other uterine orientations are possible. Most commonly, the angle of the vaginal canal is 45° to the angle of the uterus. Anteflexion: the long axis of uterus is bent anteriorly relative to that of the cervix An ...
chapter 13 the spinal cord and spinal nerves
... d. protect spinal cord against shock and sudden displacement ...
... d. protect spinal cord against shock and sudden displacement ...
Lower Limb 3: Gluteal Region
... Dorsum ilium (alae) : origin of gluteal muscles from gluteal lines Iliac crest iliac fosssa anterior superior iliac spine (ASIS): sartorius m. anterior inferior iliac spine (AIIS) : origin of rectus femoris m. posterior superior iliac spine posterior inferior iliac spine greater and lesser sciatic n ...
... Dorsum ilium (alae) : origin of gluteal muscles from gluteal lines Iliac crest iliac fosssa anterior superior iliac spine (ASIS): sartorius m. anterior inferior iliac spine (AIIS) : origin of rectus femoris m. posterior superior iliac spine posterior inferior iliac spine greater and lesser sciatic n ...
Chapter 8: The Appendicular Skeleton
... 2. Identify the bones of the lower limbs, their functions and features. 3. What are the structural and functional differences between the male and female pelvis? The Pelvic Girdle, p. 245 Figure 8-7 • The pelvic girdle (which is made up of the 2 hipbones or ossa coxae) is heavy because it bears the ...
... 2. Identify the bones of the lower limbs, their functions and features. 3. What are the structural and functional differences between the male and female pelvis? The Pelvic Girdle, p. 245 Figure 8-7 • The pelvic girdle (which is made up of the 2 hipbones or ossa coxae) is heavy because it bears the ...
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.