![Inferior Mesenteric Vein](http://s1.studyres.com/store/data/001333992_1-52b850b0c9e44b2c26d65b2fac27e3ea-300x300.png)
Inferior Mesenteric Vein
... transverse mesocolon to supply the transverse colon and divides into right and left branches. The right colic artery is often a branch of the ileocolic artery. It passes to the right to supply the ascending colon and divides into ascending and descending branches. The ileocolic artery passes downwar ...
... transverse mesocolon to supply the transverse colon and divides into right and left branches. The right colic artery is often a branch of the ileocolic artery. It passes to the right to supply the ascending colon and divides into ascending and descending branches. The ileocolic artery passes downwar ...
instability
... Loss of the ability of the spine under physiologic loads to maintain its pattern of displacement so that there is no initial or additional neurological deficit, no major deformity, and no incapacitating pain » White and Panjabi ...
... Loss of the ability of the spine under physiologic loads to maintain its pattern of displacement so that there is no initial or additional neurological deficit, no major deformity, and no incapacitating pain » White and Panjabi ...
Posterior abdominal wall
... transverse mesocolon to supply the transverse colon and divides into right and left branches. The right colic artery is often a branch of the ileocolic artery. It passes to the right to supply the ascending colon and divides into ascending and descending branches. The ileocolic artery passes downwar ...
... transverse mesocolon to supply the transverse colon and divides into right and left branches. The right colic artery is often a branch of the ileocolic artery. It passes to the right to supply the ascending colon and divides into ascending and descending branches. The ileocolic artery passes downwar ...
PPT
... transverse mesocolon to supply the transverse colon and divides into right and left branches. The right colic artery is often a branch of the ileocolic artery. It passes to the right to supply the ascending colon and divides into ascending and descending branches. The ileocolic artery passes downwar ...
... transverse mesocolon to supply the transverse colon and divides into right and left branches. The right colic artery is often a branch of the ileocolic artery. It passes to the right to supply the ascending colon and divides into ascending and descending branches. The ileocolic artery passes downwar ...
Comparative cranial osteology of fossorial lizards from the tribe
... in shape and is smaller in C. nicterus compared with the other two species. It meets the nasal process of the premaxilla medially, which completely separates it from its counterpart at the midline, and posteriorly (Fig. 1A). In N. ablephara and S. catimbau (Figs. 2A and 3A), in which an anterolatera ...
... in shape and is smaller in C. nicterus compared with the other two species. It meets the nasal process of the premaxilla medially, which completely separates it from its counterpart at the midline, and posteriorly (Fig. 1A). In N. ablephara and S. catimbau (Figs. 2A and 3A), in which an anterolatera ...
1 Paparella: Volume I: Basic Sciences and Related Principles
... The flow of blood in the pharyngeal arch arteries is dorsally from the heart into the dorsal aortae. The fused dorsal aortae give rise caudally to two umbilical arteries through which the deoxygenated blood is carried to the placenta. It is returned as oxygenated blood to the heart by the umbilical ...
... The flow of blood in the pharyngeal arch arteries is dorsally from the heart into the dorsal aortae. The fused dorsal aortae give rise caudally to two umbilical arteries through which the deoxygenated blood is carried to the placenta. It is returned as oxygenated blood to the heart by the umbilical ...
Ligaments and Joints of the Upper Limb
... The movements of this joint are augmented by the slight movements permitted by the intercarpal and midcarpal joints. These are flexion + extension (greater range of flexion than extension) flexion is produced by FCR and FCU, Palmaris longus APL, Flexors of the fingers and thumb extension is pr ...
... The movements of this joint are augmented by the slight movements permitted by the intercarpal and midcarpal joints. These are flexion + extension (greater range of flexion than extension) flexion is produced by FCR and FCU, Palmaris longus APL, Flexors of the fingers and thumb extension is pr ...
1. What substances ensure elasticity of bones? a — salts of
... d — pulls the capsule of shoulder joint. 108. Denote anatomical structures- sites of attachment of the deep lamina of thoracolumbar fascia. a — bodies of lumbar vertebrae; b — transverse processes of lumbar vertebrae; с — iliac crest; d — intertransverse ligaments. 109. Denote sources of development ...
... d — pulls the capsule of shoulder joint. 108. Denote anatomical structures- sites of attachment of the deep lamina of thoracolumbar fascia. a — bodies of lumbar vertebrae; b — transverse processes of lumbar vertebrae; с — iliac crest; d — intertransverse ligaments. 109. Denote sources of development ...
Variant origin of thyrolingual trunk from left common carotid artery
... sheath known as the carotid sheath, which is derived from the deep cervical fascia. It also encloses the internal jugular vein and vagus nerve between the artery and vein on a plane posterior to both. Approximately at the level of the fourth cervical vertebra, the common carotid artery bifurcates in ...
... sheath known as the carotid sheath, which is derived from the deep cervical fascia. It also encloses the internal jugular vein and vagus nerve between the artery and vein on a plane posterior to both. Approximately at the level of the fourth cervical vertebra, the common carotid artery bifurcates in ...
ABDOMEN MCQs Regarding divisions of anterior abdominal wall
... A. Midclavicular line joins the midpoint of clavicle to the midpoint of inguinal ligament. – mid clavicular point to mid inguinal point – between the ASIS and pubic symphysis (not PT) B. Intertubercular plane joins the ischial tuberosities. – transtubercular via iliac tubercles C. Transpyloric plane ...
... A. Midclavicular line joins the midpoint of clavicle to the midpoint of inguinal ligament. – mid clavicular point to mid inguinal point – between the ASIS and pubic symphysis (not PT) B. Intertubercular plane joins the ischial tuberosities. – transtubercular via iliac tubercles C. Transpyloric plane ...
Arterial blood supply of the brain
... Vertebral artery, branch from the subclavian artery, joins together to form the basilar artery. The latter artery splits into posterior cerebral arteries. Branches off the vertebral artery 1. spinal artery: anterior spinal artery: one formed by branches from each vertebral artery 2. posterior sp ...
... Vertebral artery, branch from the subclavian artery, joins together to form the basilar artery. The latter artery splits into posterior cerebral arteries. Branches off the vertebral artery 1. spinal artery: anterior spinal artery: one formed by branches from each vertebral artery 2. posterior sp ...
Document
... The cavernous sinuses are found on either side of the body of the sphenoid bone in middle cranial fossae. They receive blood from the sphenoparietal sinuses which are located underneath the free edges of the lesser wings of the sphenoid bone. Blood also drains into the cavernous sinuses via the supe ...
... The cavernous sinuses are found on either side of the body of the sphenoid bone in middle cranial fossae. They receive blood from the sphenoparietal sinuses which are located underneath the free edges of the lesser wings of the sphenoid bone. Blood also drains into the cavernous sinuses via the supe ...
Region of Upper Limb
... The III rib 2. Pus gathering in the deep subpectoral space may spread immediately to: Coracohumeral ligament Entire axillary cavity Superficial subpectoral space Toracoacromial artery All the answers are correct 3. Deep subpectoral space is located between: Pectoral fascia Major pectoral muscle Clav ...
... The III rib 2. Pus gathering in the deep subpectoral space may spread immediately to: Coracohumeral ligament Entire axillary cavity Superficial subpectoral space Toracoacromial artery All the answers are correct 3. Deep subpectoral space is located between: Pectoral fascia Major pectoral muscle Clav ...
Lymph drainage of the head and neck
... (b) a deeper set, which is further subdivided into prelaryngeal, on the middle cricothyroid ligament, and pretracheal, on the front of the trachea. This deeper set drains the lower part of the larynx, the thyroid gland, and the upper part of the trachea; its efferents pass to the lowest of the super ...
... (b) a deeper set, which is further subdivided into prelaryngeal, on the middle cricothyroid ligament, and pretracheal, on the front of the trachea. This deeper set drains the lower part of the larynx, the thyroid gland, and the upper part of the trachea; its efferents pass to the lowest of the super ...
Major arteries of the body
... • The branches of arteries supplying adjacent areas normally anastomose with one another freely providing backup routes for blood to flow if one artery is blocked. • The arteries whose terminal branches do not anastomose with branches of adjacent arteries are called “end arteries or terminal arterie ...
... • The branches of arteries supplying adjacent areas normally anastomose with one another freely providing backup routes for blood to flow if one artery is blocked. • The arteries whose terminal branches do not anastomose with branches of adjacent arteries are called “end arteries or terminal arterie ...
11. Axial Muscles
... used your procerus muscle. This muscle is continuous with the frontalis muscle, and it runs over the bridge of the nose, where it produces transverse wrinkles when it contracts. The mouth is the most expressive part of the face, and not surprisingly the muscles in that area are very diverse. The orb ...
... used your procerus muscle. This muscle is continuous with the frontalis muscle, and it runs over the bridge of the nose, where it produces transverse wrinkles when it contracts. The mouth is the most expressive part of the face, and not surprisingly the muscles in that area are very diverse. The orb ...
VASCULAR APPLIED ANATOMY OF UPPER LIMB
... 1. Cervical Rib 2. Abnormal attachment of scalene muscle 3. Fibrous band compression on the artery THORACIC OUTLET SYNDROME Clinical findings •Radial pulse may be absent •Complete occlusion of artery can result in ischemia & gangrene of upper limb • Plethora due to obstruction of superior vena cave ...
... 1. Cervical Rib 2. Abnormal attachment of scalene muscle 3. Fibrous band compression on the artery THORACIC OUTLET SYNDROME Clinical findings •Radial pulse may be absent •Complete occlusion of artery can result in ischemia & gangrene of upper limb • Plethora due to obstruction of superior vena cave ...
Full Text PDF
... It gave off two branches; upper and lower branches. Upper branch descends laterally and joined a branch from lateral cord. Lower branch continued as a common trunk which later gave off medial cutaneous nerve of the arm (root T1) and the forearm (root T1 in Figure 2). Formation of terminal nerves In ...
... It gave off two branches; upper and lower branches. Upper branch descends laterally and joined a branch from lateral cord. Lower branch continued as a common trunk which later gave off medial cutaneous nerve of the arm (root T1) and the forearm (root T1 in Figure 2). Formation of terminal nerves In ...
live anatomy - University of New England
... The lesser tubercle of the humerus may be palpated through the anterior deltoid, inferior to the coracoid process of the scapula. Arm rotation helps to identify the lesser tubercle of the humerus. Between the tubercles, locate the intertubercular groove of the humerus. Before leaving this area, pal ...
... The lesser tubercle of the humerus may be palpated through the anterior deltoid, inferior to the coracoid process of the scapula. Arm rotation helps to identify the lesser tubercle of the humerus. Between the tubercles, locate the intertubercular groove of the humerus. Before leaving this area, pal ...
M. Tschabitscher and RJ Galzio
... The floor forms the roof of the choanae anteriorly and the roof of the nasopharynx posteriorly. Medially the pterygoid canal of Vidianus is recognizable as a bulge. (It should not be mistaken for a septal remnant.) Laterally, at the junction with the lateral wall, the maxillary nerve may form anothe ...
... The floor forms the roof of the choanae anteriorly and the roof of the nasopharynx posteriorly. Medially the pterygoid canal of Vidianus is recognizable as a bulge. (It should not be mistaken for a septal remnant.) Laterally, at the junction with the lateral wall, the maxillary nerve may form anothe ...
muscle - People Server at UNCW
... exhalation. The diaphragm is a skeletal muscle that separates the thoracic cavity from the abdominal cavity. Its peripheral muscular portion originates along the margin of the inferior rib cage. The muscle fibers converge and insert into a common central tendon. This arrangmenet forms a dome-like st ...
... exhalation. The diaphragm is a skeletal muscle that separates the thoracic cavity from the abdominal cavity. Its peripheral muscular portion originates along the margin of the inferior rib cage. The muscle fibers converge and insert into a common central tendon. This arrangmenet forms a dome-like st ...
Posteriorly
... the sternothyroid, and the superior belly of the omohyoid • Posteriorly: The transverse processes of the lower four cervical vertebrae, the prevertebral muscles, and the sympathetic trunk. In the lower part of the neck are the vertebral vessels. • Medially: The larynx and pharynx and, below these, t ...
... the sternothyroid, and the superior belly of the omohyoid • Posteriorly: The transverse processes of the lower four cervical vertebrae, the prevertebral muscles, and the sympathetic trunk. In the lower part of the neck are the vertebral vessels. • Medially: The larynx and pharynx and, below these, t ...
Development of HEART 3-ARTERIES
... 1. First aortic arch - disappears (except a small portion which forms part of maxillary artery). 2. Second arch artery - disappears (except the stapedial artery which also disappears after birth). 3. Third aortic arch forms : a. Common carotid artery from its proximal part. b. Internal carotid arter ...
... 1. First aortic arch - disappears (except a small portion which forms part of maxillary artery). 2. Second arch artery - disappears (except the stapedial artery which also disappears after birth). 3. Third aortic arch forms : a. Common carotid artery from its proximal part. b. Internal carotid arter ...
What are the structures of the skeletal system?
... Floating Ribs The last two pairs of ribs (11 and 12) are the smallest of all of the rib bones, and are called "floating ribs." They get the name "floating rib" because they are connected to the spine at the back, but are not connected to anything at the front, thus appearing to ...
... Floating Ribs The last two pairs of ribs (11 and 12) are the smallest of all of the rib bones, and are called "floating ribs." They get the name "floating rib" because they are connected to the spine at the back, but are not connected to anything at the front, thus appearing to ...
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.