Clinical Anatomy of ORAL CAVITY-2014++++
... •The palatine tonsils are two masses of lymphoid tissue located in lateral walls of the oral part of pharynx in the tonsillar sinuses. •The palatine tonsils are the common site of infection, producing the characteristic tonsilitis. •The deep cervical lymph node, which situated below and behind the a ...
... •The palatine tonsils are two masses of lymphoid tissue located in lateral walls of the oral part of pharynx in the tonsillar sinuses. •The palatine tonsils are the common site of infection, producing the characteristic tonsilitis. •The deep cervical lymph node, which situated below and behind the a ...
Femoral Vein Anatomy
... medial border: adductor longus lateral border: sartorius apex: sartorius crossing the adductor longus muscle roof: skin subcutaneous tissue, the cribriform fascia and the fascia lata floor: adductor longus, adductor brevis, pectineus and iliopsoas muscles ...
... medial border: adductor longus lateral border: sartorius apex: sartorius crossing the adductor longus muscle roof: skin subcutaneous tissue, the cribriform fascia and the fascia lata floor: adductor longus, adductor brevis, pectineus and iliopsoas muscles ...
41-Posterior_compart..
... behind the popliteal artery so that it comes to lie on its lateral side. Passes through the opening in the adductor magnus to become the femoral vein. ...
... behind the popliteal artery so that it comes to lie on its lateral side. Passes through the opening in the adductor magnus to become the femoral vein. ...
VisualSonics_Guide To Abdominal Imaging using the Vevo 770 Rev
... that are joined by a capillary system. Lymphatic vessels are located anywhere there are blood vessels. Lymph nodes are part of the body's defense mechanism. They filter out organisms that cause disease. They produce certain white blood cells and generate antibodies. They are also important for the d ...
... that are joined by a capillary system. Lymphatic vessels are located anywhere there are blood vessels. Lymph nodes are part of the body's defense mechanism. They filter out organisms that cause disease. They produce certain white blood cells and generate antibodies. They are also important for the d ...
Anatomy of the Thorax
... ○ The inferior border of the lung is sharp and separates the base from the costal surface. ○ The anterior and posterior borders separate the costal surface from the medial surface and are both smooth. 3 surfaces - costal, medial (mediastinal), inferior (diaphragmatic) ○ The costal surface lies immed ...
... ○ The inferior border of the lung is sharp and separates the base from the costal surface. ○ The anterior and posterior borders separate the costal surface from the medial surface and are both smooth. 3 surfaces - costal, medial (mediastinal), inferior (diaphragmatic) ○ The costal surface lies immed ...
No. 8
... omentum are frequently adhered together, and are found wrapped about the organs in the upper part of the abdomen; only occasionally are they evenly dependent anterior to the intestines. ...
... omentum are frequently adhered together, and are found wrapped about the organs in the upper part of the abdomen; only occasionally are they evenly dependent anterior to the intestines. ...
1. The stomach: a. Lies anterior to the greater sac. b. Receives all its
... 1. The ilioinguinal nerve: (a) Is a branch from L1 spinal nerve (b) It descends behind the kidney (c) It passes through the deep inguinal ring (d) It is entirely sensory (e) It is sensory to the scrotum or labium majus 2. The external oblique muscle: (a) Is attached posteriorly to the lumbar fascia ...
... 1. The ilioinguinal nerve: (a) Is a branch from L1 spinal nerve (b) It descends behind the kidney (c) It passes through the deep inguinal ring (d) It is entirely sensory (e) It is sensory to the scrotum or labium majus 2. The external oblique muscle: (a) Is attached posteriorly to the lumbar fascia ...
sample - Create Training
... 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 onl ...
... 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 onl ...
Salivary-Gland
... – CT/MRI – Most tumors are malignant so FNA only useful if maligant – Always resect with a formal cancer surgery ...
... – CT/MRI – Most tumors are malignant so FNA only useful if maligant – Always resect with a formal cancer surgery ...
HS I Endocrine System Worksheet 1 Choose the best answer to
... 13. ____ The secretion of the hormones operates on a positive feedback system or under the control of the nervous system. 14. ____ The pituitary gland is a tiny structure located at the base of the brain. 15. ____ The pituitary gland is connected to the hypothalamus by a stalk called the ...
... 13. ____ The secretion of the hormones operates on a positive feedback system or under the control of the nervous system. 14. ____ The pituitary gland is a tiny structure located at the base of the brain. 15. ____ The pituitary gland is connected to the hypothalamus by a stalk called the ...
anatomy - Libreria Universo
... The distance between these two nerves and the lower border of the mandible is shown in Fig. 2.3. Contents of the Submandibular Triangle The structures of the second surgical plane, from superficial to deep, are the anterior and posterior facial vein, part of the facial (external maxillary) artery, t ...
... The distance between these two nerves and the lower border of the mandible is shown in Fig. 2.3. Contents of the Submandibular Triangle The structures of the second surgical plane, from superficial to deep, are the anterior and posterior facial vein, part of the facial (external maxillary) artery, t ...
AHS I
... 9. The _______ (pancreas, pituitary) performs both as an endocrine and exocrine gland. 10. The ________ (endocrine, exocrine) portion of the pancreas is called the Islets of Langerhans. 11. Body cells that react to a particular hormone are called _______ (target, lobe) organ cells. True or False 12. ...
... 9. The _______ (pancreas, pituitary) performs both as an endocrine and exocrine gland. 10. The ________ (endocrine, exocrine) portion of the pancreas is called the Islets of Langerhans. 11. Body cells that react to a particular hormone are called _______ (target, lobe) organ cells. True or False 12. ...
47-arches+venous&lymphatics (Updated 31 May)
... perforating veins become incompetent (so, allow blood to pass from deep veins to superficial veins). As a result, the blood passes from deep veins (high pressure) to superficial veins (low pressure), so the superficial veins become dilated, elongated and tortuous. ...
... perforating veins become incompetent (so, allow blood to pass from deep veins to superficial veins). As a result, the blood passes from deep veins (high pressure) to superficial veins (low pressure), so the superficial veins become dilated, elongated and tortuous. ...
Anatomy of the male perineum, and reproductive organs
... vertebral levels LI and LII. Therefore disease from the testes tracks superiorly to nodes high in the posterior abdominal wall and not to inguinal or iliac nodes. ...
... vertebral levels LI and LII. Therefore disease from the testes tracks superiorly to nodes high in the posterior abdominal wall and not to inguinal or iliac nodes. ...
3.Kidney, Ureter & Suprarenal gland
... They control the water and electrolyte balance of the body ...
... They control the water and electrolyte balance of the body ...
Practical Class 4 BLOOD SUPPL BLOOD SUPPLY TO THE TRUNK
... As the IVC ascends through the abdomen, it receives tributaries that correspond to the branches of the abdominal aorta to body wall and paired viscera (although the left suprarenal and gonadal vessels join the IVC via the left renal vein). Note that the IVC does not receive venous blood directly fr ...
... As the IVC ascends through the abdomen, it receives tributaries that correspond to the branches of the abdominal aorta to body wall and paired viscera (although the left suprarenal and gonadal vessels join the IVC via the left renal vein). Note that the IVC does not receive venous blood directly fr ...
Anatomy 21- Lower Airway provide a warm, protected, and of course
... The bronchial arteries and veins constitute the “nutritive” vascular system of the lungs – The “working” tissues of the lungs require highly oxygenated blood, which cannot be provided by the pulmonary arteries There are generally two left bronchial arteries—superior and inferior—which arise from the ...
... The bronchial arteries and veins constitute the “nutritive” vascular system of the lungs – The “working” tissues of the lungs require highly oxygenated blood, which cannot be provided by the pulmonary arteries There are generally two left bronchial arteries—superior and inferior—which arise from the ...
Document
... blood vessels run in layer two of the scalp-the dense subcutaneous layer btwn the skin and epicranial aponeurosis. They are held by the dense connective tissue in such a way that they tend to remain open when cut. Consequently, bleeding from the scalp wound is profuse. ...
... blood vessels run in layer two of the scalp-the dense subcutaneous layer btwn the skin and epicranial aponeurosis. They are held by the dense connective tissue in such a way that they tend to remain open when cut. Consequently, bleeding from the scalp wound is profuse. ...
07-lumbar plexus+lymphatics
... into thoracic duct. –it collects lymph from abdomen & lower limbs. -Tributaries : it receives intestinal trunk, right & left lumbar trunks and some lymph vessels from lower thorax. Thoracic duct : begins in the abdomen as an elongated lymph sac, cisterna chyli, which lies below diaphragm, in front ...
... into thoracic duct. –it collects lymph from abdomen & lower limbs. -Tributaries : it receives intestinal trunk, right & left lumbar trunks and some lymph vessels from lower thorax. Thoracic duct : begins in the abdomen as an elongated lymph sac, cisterna chyli, which lies below diaphragm, in front ...
Lecture 4 Thorax د.رندعبداللطيف Pleura
... Nerve Supply of the Pleura The nerve supply of the visceral pleura is by autonomic fibers from pulmonary plexus, while the parietal layer is supplied by intercostal nerves for the costal part, phrenic nerve for the mediastinal part & diaphragmatic part of parietal pleura and the peripheral parts of ...
... Nerve Supply of the Pleura The nerve supply of the visceral pleura is by autonomic fibers from pulmonary plexus, while the parietal layer is supplied by intercostal nerves for the costal part, phrenic nerve for the mediastinal part & diaphragmatic part of parietal pleura and the peripheral parts of ...
PAC01 Abdomen
... artery, a branch of the femoral artery, and from the inferior epigastric artery. Scrotal veins are of the same name as the arteries they parallel. Nerves are associated with the genitofemoral nerves from L1 & L2, ilioinguinal from L1, pudental nerve from S2,S3,&S4, and posterior femoral cutaneous n ...
... artery, a branch of the femoral artery, and from the inferior epigastric artery. Scrotal veins are of the same name as the arteries they parallel. Nerves are associated with the genitofemoral nerves from L1 & L2, ilioinguinal from L1, pudental nerve from S2,S3,&S4, and posterior femoral cutaneous n ...
Gross Anatomical Features of Ureter, Urinnary Bladder and
... Topic : Gross Anatomical Features of Ureter, Urinnary Bladder and Urethera Learning Objectives: At the end of the lecture student will able : To define the collecting parts of excretory system. To describe the gross anatomical feature and relation of the Ureter, urinary bladder, and urethra. To clin ...
... Topic : Gross Anatomical Features of Ureter, Urinnary Bladder and Urethera Learning Objectives: At the end of the lecture student will able : To define the collecting parts of excretory system. To describe the gross anatomical feature and relation of the Ureter, urinary bladder, and urethra. To clin ...
as a pdf
... modified this flap to increase it’s versatility by omitting the fascial layers, and leaving a subcutaneous islanded flap thinned to cutaneous at its periphery (8). The flap is designed adjacent to the defect to be filled, without defining or isolating the vasculature. The width of the flap should be ...
... modified this flap to increase it’s versatility by omitting the fascial layers, and leaving a subcutaneous islanded flap thinned to cutaneous at its periphery (8). The flap is designed adjacent to the defect to be filled, without defining or isolating the vasculature. The width of the flap should be ...
Tumor stag ng - Association of Surgical Technologists
... inferiorly as the mediastinum. Lymphatics Cervical lymph nodes are divided into several levels for dissection. These levels are determined by the anatomic structures of the tissue in which they reside. The importance of levels for neck dissections is due to the recent studies of the lymphatic metast ...
... inferiorly as the mediastinum. Lymphatics Cervical lymph nodes are divided into several levels for dissection. These levels are determined by the anatomic structures of the tissue in which they reside. The importance of levels for neck dissections is due to the recent studies of the lymphatic metast ...
Lymphatic system
The lymphatic system is part of the circulatory system and a vital part of the immune system, comprising a network of lymphatic vessels that carry a clear fluid called lymph (from Latin lympha meaning water) directionally towards the heart. The lymphatic system was first described in the seventeenth century independently by Olaus Rudbeck and Thomas Bartholin. Unlike the cardiovascular system, the lymphatic system is not a closed system. The human circulatory system processes an average of 20 litres of blood per day through capillary filtration, which removes plasma while leaving the blood cells. Roughly 17 litres of the filtered plasma are reabsorbed directly into the blood vessels, while the remaining three litres remain in the interstitial fluid. One of the main functions of the lymph system is to provide an accessory return route to the blood for the surplus three litres.The other main function is that of defense in the immune system. Lymph is very similar to blood plasma: it contains lymphocytes and other white blood cells. It also contains waste products and debris of cells together with bacteria and protein. Associated organs composed of lymphoid tissue are the sites of lymphocyte production. Lymphocytes are concentrated in the lymph nodes. The spleen and the thymus are also lymphoid organs of the immune system. The tonsils are lymphoid organs that are also associated with the digestive system. Lymphoid tissues contain lymphocytes, and also contain other types of cells for support. The system also includes all the structures dedicated to the circulation and production of lymphocytes (the primary cellular component of lymph), which also includes the bone marrow, and the lymphoid tissue associated with the digestive system.The blood does not come into direct contact with the parenchymal cells and tissues in the body (except in case of an injury causing rupture of one or more blood vessels), but constituents of the blood first exit the microvascular exchange blood vessels to become interstitial fluid, which comes into contact with the parenchymal cells of the body. Lymph is the fluid that is formed when interstitial fluid enters the initial lymphatic vessels of the lymphatic system. The lymph is then moved along the lymphatic vessel network by either intrinsic contractions of the lymphatic passages or by extrinsic compression of the lymphatic vessels via external tissue forces (e.g., the contractions of skeletal muscles), or by lymph hearts in some animals. The organization of lymph nodes and drainage follows the organization of the body into external and internal regions; therefore, the lymphatic drainage of the head, limbs, and body cavity walls follows an external route, and the lymphatic drainage of the thorax, abdomen, and pelvic cavities follows an internal route. Eventually, the lymph vessels empty into the lymphatic ducts, which drain into one of the two subclavian veins, near their junction with the internal jugular veins.