Arteries of the Head and Neck
... The wall of the thorax is supplied by a collection of arteries, some of which originate directly from the thoracic aorta and others from branches of the subclavian artery. Two bronchial arteries on the left and one on the right deliver systemic blood to the lung structures, including the visceral pl ...
... The wall of the thorax is supplied by a collection of arteries, some of which originate directly from the thoracic aorta and others from branches of the subclavian artery. Two bronchial arteries on the left and one on the right deliver systemic blood to the lung structures, including the visceral pl ...
Shoulder Injuries: Getting to the HEART of it!
... According to Miller’s Anatomy of the Dog, the first pair of ribs and their cranially extending costal cartilages borders the thoracic inlet bilaterally. The aperture is wider dorsally than ventrally. The first thoracic vertebra and the paired longus colli muscles bound the thoracic inlet dorsally; t ...
... According to Miller’s Anatomy of the Dog, the first pair of ribs and their cranially extending costal cartilages borders the thoracic inlet bilaterally. The aperture is wider dorsally than ventrally. The first thoracic vertebra and the paired longus colli muscles bound the thoracic inlet dorsally; t ...
Meninges (singular Meninx)
... o Posterior auricular vein - drains the area of scalp superior and posterior to the outer ear. o Retromandibular vein (anterior branch) – itself formed by the maxillary and superficial temporal veins, which drain the face. ...
... o Posterior auricular vein - drains the area of scalp superior and posterior to the outer ear. o Retromandibular vein (anterior branch) – itself formed by the maxillary and superficial temporal veins, which drain the face. ...
Chapter 17
... 1. Warm-up & Stretching 5-10 minutes in duration Light exercise with light loads Purpose is to increase heart rate to get the blood flowing to the muscles This causes the muscles to be more flexible Brings nutrients and oxygen to the muscle ...
... 1. Warm-up & Stretching 5-10 minutes in duration Light exercise with light loads Purpose is to increase heart rate to get the blood flowing to the muscles This causes the muscles to be more flexible Brings nutrients and oxygen to the muscle ...
Year 8 Curriculum
... BIOLOGY YEAR 8 Curriculum Content Five topics are taught in this year. The topics are : ...
... BIOLOGY YEAR 8 Curriculum Content Five topics are taught in this year. The topics are : ...
PHS_204_ASSIGNMENT_1
... allowing an inflow of blood. Arterio-venous shunts are closed to prevent drainage and the SM of the cavernosum relaxes, decreasing resistance to the increase in blood volume there. Venous ‘bleed’ valves close (and the veins are compressed by the increased pressure) Low volume, low pressure. The corp ...
... allowing an inflow of blood. Arterio-venous shunts are closed to prevent drainage and the SM of the cavernosum relaxes, decreasing resistance to the increase in blood volume there. Venous ‘bleed’ valves close (and the veins are compressed by the increased pressure) Low volume, low pressure. The corp ...
PHS_204_ASSIGNMENTT_1
... allowing an inflow of blood. Arterio-venous shunts are closed to prevent drainage and the SM of the cavernosum relaxes, decreasing resistance to the increase in blood volume there. Venous ‘bleed’ valves close (and the veins are compressed by the increased pressure) Low volume, low pressure. The corp ...
... allowing an inflow of blood. Arterio-venous shunts are closed to prevent drainage and the SM of the cavernosum relaxes, decreasing resistance to the increase in blood volume there. Venous ‘bleed’ valves close (and the veins are compressed by the increased pressure) Low volume, low pressure. The corp ...
Ch 1 Notes
... – Composed of muscles and tendons – Allows manipulation of the environment, locomotion, and facial expression ...
... – Composed of muscles and tendons – Allows manipulation of the environment, locomotion, and facial expression ...
Arteries to the Neck, Head, and Brain
... Arteries to the Shoulder and Upper Limb • After the subclavian artery pass between the clavicle and the 1st rib, it becomes the axillary artery, which then becomes the brachial artery. • A deep brachial artery branches off the brachial artery and curves around the humerus to suplly the triceps brac ...
... Arteries to the Shoulder and Upper Limb • After the subclavian artery pass between the clavicle and the 1st rib, it becomes the axillary artery, which then becomes the brachial artery. • A deep brachial artery branches off the brachial artery and curves around the humerus to suplly the triceps brac ...
Biology 218 – Human Anatomy Lecture Outline Adapted from Martini
... Material can diffuse across the endothelial lining Material can diffuse through gaps between adjacent cells of the lining Material can diffuse through pores Material can move via endocytosis ...
... Material can diffuse across the endothelial lining Material can diffuse through gaps between adjacent cells of the lining Material can diffuse through pores Material can move via endocytosis ...
BIO 218 F 2012 CH 22 Martini Lecture Outline
... Material can diffuse across the endothelial lining Material can diffuse through gaps between adjacent cells of the lining Material can diffuse through pores Material can move via endocytosis ...
... Material can diffuse across the endothelial lining Material can diffuse through gaps between adjacent cells of the lining Material can diffuse through pores Material can move via endocytosis ...
Rat LAB
... The LEFT VENTRICLE is thicker and stronger than the RIGHT ventricle because the left side has to pump blood a farther distance out to all the body parts. The right ventricle just has to send blood to the lungs, which are close by. ...
... The LEFT VENTRICLE is thicker and stronger than the RIGHT ventricle because the left side has to pump blood a farther distance out to all the body parts. The right ventricle just has to send blood to the lungs, which are close by. ...
BIOL 218 F 2011 Lecture Outline Ch 21
... Right ventricle has a thin wall since it only pumps blood through the pulmonary circuit ...
... Right ventricle has a thin wall since it only pumps blood through the pulmonary circuit ...
Effects of Posture on Arterial Blood Pressure
... the ground of different areas of the body. Data was taken at eye level, shoulders, heart, waist, hips, mid thigh, knee, mid calf, and feet when the individual was both standing and lying down. Also noted, but not included in the written file, was the individual’s overall height. Once the data was wr ...
... the ground of different areas of the body. Data was taken at eye level, shoulders, heart, waist, hips, mid thigh, knee, mid calf, and feet when the individual was both standing and lying down. Also noted, but not included in the written file, was the individual’s overall height. Once the data was wr ...
vein - SLCC Anatomy
... drains small intestine and part of large intestine into hepatic £ superior mesenteric vein portal vein drains most of large intestine into splenic vein, and then into £ inferior mesenteric vein hepatic portal vein ...
... drains small intestine and part of large intestine into hepatic £ superior mesenteric vein portal vein drains most of large intestine into splenic vein, and then into £ inferior mesenteric vein hepatic portal vein ...
Tissue Types File
... Communication within the body is essential for homeostasis and is accomplished chiefly by the nervous – electrical delivered by nerves endocrine – blood borne hormones ...
... Communication within the body is essential for homeostasis and is accomplished chiefly by the nervous – electrical delivered by nerves endocrine – blood borne hormones ...
Fetal Pig Dissection - learningtosavetheearth.com
... The circulatory (or cardiovascular) system is responsible for transporting nutrients, gases, hormones, and metabolic wastes to and from individual cells. Actually, the loading and unloading take place in capillaries. Oxygen is added to the blood (and carbon dioxide removed) in the capillaries of the ...
... The circulatory (or cardiovascular) system is responsible for transporting nutrients, gases, hormones, and metabolic wastes to and from individual cells. Actually, the loading and unloading take place in capillaries. Oxygen is added to the blood (and carbon dioxide removed) in the capillaries of the ...
Intro to Human Body
... Life Processes ● Metabolism = sum of all chemical processes o breakdown of large molecules into small o building new structural components (proteins) o providing chemical energy for cells ...
... Life Processes ● Metabolism = sum of all chemical processes o breakdown of large molecules into small o building new structural components (proteins) o providing chemical energy for cells ...
Blood Vessels - Dr. Justo Lopez Website
... Glucose and oxygen being more concentrated in blood diffuse out of the blood. Carbon dioxide and other waste being more concentrated in tissue fluid diffuse into the blood. Capillary diffusion can only occur if the solute can permeate the plasma membranes of the endothelial cell, or find passages la ...
... Glucose and oxygen being more concentrated in blood diffuse out of the blood. Carbon dioxide and other waste being more concentrated in tissue fluid diffuse into the blood. Capillary diffusion can only occur if the solute can permeate the plasma membranes of the endothelial cell, or find passages la ...
CRRM1.9 - The Heart in Situ
... of the diaphragm The two layers of the serous pericardium contain a narrow fluid-filled space called the pericardial cavity which accommodates for the movement of the heart The serous pericardium reflects around the great vessels at two key locations: o Superiorly around the arteries, aorta and pulm ...
... of the diaphragm The two layers of the serous pericardium contain a narrow fluid-filled space called the pericardial cavity which accommodates for the movement of the heart The serous pericardium reflects around the great vessels at two key locations: o Superiorly around the arteries, aorta and pulm ...
left common carotid artery
... Within the lung these arteries divide and subdivide into smaller arteries, arterioles and capillaries. The exchange of gases takes place between capillary blood and air in the alveoli of the lungs (p. 250). In each lung the capillaries containing oxygenated blood join up and eventually form two pulm ...
... Within the lung these arteries divide and subdivide into smaller arteries, arterioles and capillaries. The exchange of gases takes place between capillary blood and air in the alveoli of the lungs (p. 250). In each lung the capillaries containing oxygenated blood join up and eventually form two pulm ...
MAIN FUNCTION OF THE RESPIRATORY SYSTEM: The respiratory
... The oxygen we breathe in through our and and eventually enters our lungs. The concentration of oxygen in blood flowing through the lungs < oxygen in the air in alveoli This ensures that oxygen always and is carried to the tissues. Oxygen then diffuses from _____________________ into the ____________ ...
... The oxygen we breathe in through our and and eventually enters our lungs. The concentration of oxygen in blood flowing through the lungs < oxygen in the air in alveoli This ensures that oxygen always and is carried to the tissues. Oxygen then diffuses from _____________________ into the ____________ ...
HUMAN ANATOMY AND PHYSIOLOGY INTRO NOTES
... evaluates (makes sense of what is happening and determines what is needed) quickly activates muscles or glands E. Endocrine (hormones, pituitary, thyroid, pancreas, suprarenal, gonads, and adrenal) secrete hormones for growth, reproduction, and metabolism provides a much slower, but lasting ...
... evaluates (makes sense of what is happening and determines what is needed) quickly activates muscles or glands E. Endocrine (hormones, pituitary, thyroid, pancreas, suprarenal, gonads, and adrenal) secrete hormones for growth, reproduction, and metabolism provides a much slower, but lasting ...
HAP 1.1-1.4 - Central Lyon CSD
... a. Mediastinum – region that separates the thoracic cavity into right and left halves. b. Viscera – cavity that contains organs. c. Diaphragm – thin muscular wall that separates the abdominal cavity from the thoracic cavity. d. Membrane – thin coating that covers an organ. ...
... a. Mediastinum – region that separates the thoracic cavity into right and left halves. b. Viscera – cavity that contains organs. c. Diaphragm – thin muscular wall that separates the abdominal cavity from the thoracic cavity. d. Membrane – thin coating that covers an organ. ...
Circulatory system
The circulatory system, also called the cardiovascular system, is an organ system that permits blood to circulate and transport nutrients (such as amino acids and electrolytes), oxygen, carbon dioxide, hormones, and blood cells to and from the cells in the body to provide nourishment and help in fighting diseases, stabilize temperature and pH, and maintain homeostasis. The study of the blood flow is called hemodynamics. The study of the properties of the blood flow is called hemorheology.The circulatory system is often seen to comprise both the cardiovascular system, which distributes blood, and the lymphatic system, which circulates lymph. These are two separate systems. The passage of lymph for example takes a lot longer than that of blood. Blood is a fluid consisting of plasma, red blood cells, white blood cells, and platelets that is circulated by the heart through the vertebrate vascular system, carrying oxygen and nutrients to and waste materials away from all body tissues. Lymph is essentially recycled excess blood plasma after it has been filtered from the interstitial fluid (between cells) and returned to the lymphatic system. The cardiovascular (from Latin words meaning 'heart' and 'vessel') system comprises the blood, heart, and blood vessels. The lymph, lymph nodes, and lymph vessels form the lymphatic system, which returns filtered blood plasma from the interstitial fluid (between cells) as lymph.While humans, as well as other vertebrates, have a closed cardiovascular system (meaning that the blood never leaves the network of arteries, veins and capillaries), some invertebrate groups have an open cardiovascular system. The lymphatic system, on the other hand, is an open system providing an accessory route for excess interstitial fluid to be returned to the blood. The more primitive, diploblastic animal phyla lack circulatory systems.