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... Capillary Giraffe Antarctic fish Two auricles and one ventricle Two pairs of lymph hearts Venous heart Amphioxus and Nereis Present between the systemic arches of the heart Male – 300 Gm. Female – 250 Gm Used to detect blocks in the arteries Increases heart beat Present in the heart of mammals Peric ...
... Capillary Giraffe Antarctic fish Two auricles and one ventricle Two pairs of lymph hearts Venous heart Amphioxus and Nereis Present between the systemic arches of the heart Male – 300 Gm. Female – 250 Gm Used to detect blocks in the arteries Increases heart beat Present in the heart of mammals Peric ...
Slide 1
... The heart itself is divided into four chambers: the right and left atria and the right and left ventricles. Each chamber functions to receive and/or pump blood. The blood circulation is a closed system by which unoxygenated blood enters the right atrium from all parts of the body, is reoxygenated in ...
... The heart itself is divided into four chambers: the right and left atria and the right and left ventricles. Each chamber functions to receive and/or pump blood. The blood circulation is a closed system by which unoxygenated blood enters the right atrium from all parts of the body, is reoxygenated in ...
Blood Vessels
... Physiology of Circulation Terminology • Blood flow (ml/min) – Amount of blood moving at a given time – Equivalent to cardiac output (CO) – Constant at rest; varies w/organ needs ...
... Physiology of Circulation Terminology • Blood flow (ml/min) – Amount of blood moving at a given time – Equivalent to cardiac output (CO) – Constant at rest; varies w/organ needs ...
vascular-technology-lecture-17-cerebrovascular-gross
... carotid (ICA), anterior cerebral arteries (ACA), joined together by the anterior communicating artery (AComm), posterior cerebral arteries (PCA) joined together by the posterior communicating arteries (Pcomm) ...
... carotid (ICA), anterior cerebral arteries (ACA), joined together by the anterior communicating artery (AComm), posterior cerebral arteries (PCA) joined together by the posterior communicating arteries (Pcomm) ...
Human Anatomy, First Edition McKinley&O'Loughlin
... Blood returns to the left side of the heart, where it then enters the systemic circuit. The systemic circuit consists of the chambers on the left side of the heart (left atrium and ventricle), along with all the other named blood vessels. ...
... Blood returns to the left side of the heart, where it then enters the systemic circuit. The systemic circuit consists of the chambers on the left side of the heart (left atrium and ventricle), along with all the other named blood vessels. ...
Heart
... Systemic veins then carry deoxygenated blood (high in carbon dioxide) and waste products. Most veins merge and drain into the superior and inferior venae cavae, which drain blood into the right atrium. There, the blood enters the pulmonary circuit, and the cycle repeats . ...
... Systemic veins then carry deoxygenated blood (high in carbon dioxide) and waste products. Most veins merge and drain into the superior and inferior venae cavae, which drain blood into the right atrium. There, the blood enters the pulmonary circuit, and the cycle repeats . ...
Rat Dissection
... 1. The coelom is the body cavity within which the viscera (internal organs) are located. The cavity is covery by a membrane called the peritoneum, which covers four region visceral peritoneum - covers the internal organs mesenteries - attach the internal organs to the dorsal body wall omentia - conn ...
... 1. The coelom is the body cavity within which the viscera (internal organs) are located. The cavity is covery by a membrane called the peritoneum, which covers four region visceral peritoneum - covers the internal organs mesenteries - attach the internal organs to the dorsal body wall omentia - conn ...
PowerPoint Lecture - Dr. Stuart Sumida
... PAIRED ARTERIES OF THE BODY WALL: ARMS AND THORAX •Subclavian Arteries •12 Intercostal Arteries •Superior Phrenic Arteries (to diaphragm from above) ...
... PAIRED ARTERIES OF THE BODY WALL: ARMS AND THORAX •Subclavian Arteries •12 Intercostal Arteries •Superior Phrenic Arteries (to diaphragm from above) ...
HEART internal structure
... – Receives oxygen rich blood from the two right and two left pulmonary veins. – Blood passes from the left atrium to the left ventricle through the left atrioventricular valve or bicuspid. ...
... – Receives oxygen rich blood from the two right and two left pulmonary veins. – Blood passes from the left atrium to the left ventricle through the left atrioventricular valve or bicuspid. ...
File
... characteristics of white blood cells abundance amounts of types of white blood cells (Never Let Monkeys Eat Bananas) hematopoiesis hemostasis blood types- antigens universal recipient universal donor who can receive which blood type… ...
... characteristics of white blood cells abundance amounts of types of white blood cells (Never Let Monkeys Eat Bananas) hematopoiesis hemostasis blood types- antigens universal recipient universal donor who can receive which blood type… ...
Anatomy Workshop #1
... connect skin to Scarpa’s fascia and separate lobes. What happens to the costal groove with coarcation with the aorta? Narrowing of descending aorta leads to decreased blood flow through aorta and posterior intercostals arteries, which must be compensated for by increased blood flow through the inter ...
... connect skin to Scarpa’s fascia and separate lobes. What happens to the costal groove with coarcation with the aorta? Narrowing of descending aorta leads to decreased blood flow through aorta and posterior intercostals arteries, which must be compensated for by increased blood flow through the inter ...
Human Fetal Circulation
... Facilitates the exchange of materials between fetus and mother. The fetus picks up oxygen and nutrients from // eliminates carbon dioxide and wastes through the maternal blood supply by means of the placenta. Blood passes from the fetus to the placenta via: Two umbilical arteries One umbilical vein. ...
... Facilitates the exchange of materials between fetus and mother. The fetus picks up oxygen and nutrients from // eliminates carbon dioxide and wastes through the maternal blood supply by means of the placenta. Blood passes from the fetus to the placenta via: Two umbilical arteries One umbilical vein. ...
Introduction to A
... 6. Cardiovascular system – transports cells and nutrients/wastes Heart, arteries, veins, capillaries, blood 7. Lymphoid system – defends against infection, disease Lymphatic vessels, lymph nodes(contain cells that engulf pathogens and stimulate immune response) spleen(monitors circulating blood, blo ...
... 6. Cardiovascular system – transports cells and nutrients/wastes Heart, arteries, veins, capillaries, blood 7. Lymphoid system – defends against infection, disease Lymphatic vessels, lymph nodes(contain cells that engulf pathogens and stimulate immune response) spleen(monitors circulating blood, blo ...
Advanced Life Support Algorithm
... • 7) If hemorrhage originates from tear in the superior vena cava, a peripheral line should be rapidly placed in the lower extremity. ...
... • 7) If hemorrhage originates from tear in the superior vena cava, a peripheral line should be rapidly placed in the lower extremity. ...
Organism Physiology 3 Transport
... 1. What are the trends that are seen in animal circulatory systems over evolutionary time? 2. Compare the open circulatory system of arthropods with the closed circulatory systems of vertebrates. 3. Why has evolution resulted in the development of a 4-chambered heart in two distinct lineages? 4. Exp ...
... 1. What are the trends that are seen in animal circulatory systems over evolutionary time? 2. Compare the open circulatory system of arthropods with the closed circulatory systems of vertebrates. 3. Why has evolution resulted in the development of a 4-chambered heart in two distinct lineages? 4. Exp ...
Chapter 20
... General anatomy of the blood vessels Blood pressure, resistance and flow Capillary exchange Venous return and circulatory shock Special circulatory routes Anatomy of the pulmonary circuit Anatomy of the systemic arteries Anatomy of the systemic veins ...
... General anatomy of the blood vessels Blood pressure, resistance and flow Capillary exchange Venous return and circulatory shock Special circulatory routes Anatomy of the pulmonary circuit Anatomy of the systemic arteries Anatomy of the systemic veins ...
Blood Vessel Anatomy
... 7. R. & L. _________ veins originate from the liver and join the inferior vena cava immediately below the diaphragm 8. Blood from the GI tract, pancreas, & spleen must pass through capillaries in the _______ (hepatic portal system) before passing to the vena cava I. Hepatic ________ System - consist ...
... 7. R. & L. _________ veins originate from the liver and join the inferior vena cava immediately below the diaphragm 8. Blood from the GI tract, pancreas, & spleen must pass through capillaries in the _______ (hepatic portal system) before passing to the vena cava I. Hepatic ________ System - consist ...
Hematologic System
... Functions of the Blood 1. The main function of the blood is to maintain intracellular homeostasis by: a). Carries O2 and nutrients (glucose, amino acids, lipids, and vitamins) to the cells. b). Carries CO2 and other wastes (nitrates, creatine, nucleic acid) away from the cell. 2. Providing intercel ...
... Functions of the Blood 1. The main function of the blood is to maintain intracellular homeostasis by: a). Carries O2 and nutrients (glucose, amino acids, lipids, and vitamins) to the cells. b). Carries CO2 and other wastes (nitrates, creatine, nucleic acid) away from the cell. 2. Providing intercel ...
Ten Body Systems
... Hormones, released by endocrine glands, cause a particular changes in the body Maintains longterm homeostasis ...
... Hormones, released by endocrine glands, cause a particular changes in the body Maintains longterm homeostasis ...
Blood Supply
... Redundant arteries provide alternative supply when primary supply is lost Small, normally closed arteries open up after occlusion, connecting two larger arteries or different parts of the same artery. Dependent on location and severity of blockage – Better collateral circulation if blockage is ne ...
... Redundant arteries provide alternative supply when primary supply is lost Small, normally closed arteries open up after occlusion, connecting two larger arteries or different parts of the same artery. Dependent on location and severity of blockage – Better collateral circulation if blockage is ne ...
Cardiovascular System Part 2
... • Simple squamous epithelium lines inside of lymph vessels; few collagenous fiber cells; squamous cells at distal end of capillary overlap, forming one-way valve to allow fluid to flow into capillary and prevent backflow • Lymphatic tissue is specialized form of netlike connective tissue in lymphati ...
... • Simple squamous epithelium lines inside of lymph vessels; few collagenous fiber cells; squamous cells at distal end of capillary overlap, forming one-way valve to allow fluid to flow into capillary and prevent backflow • Lymphatic tissue is specialized form of netlike connective tissue in lymphati ...
Chapter 20: Blood Vessels and Circulation
... General anatomy of the blood vessels Blood pressure, resistance and flow Capillary exchange Venous return and circulatory shock Special circulatory routes Anatomy of the pulmonary circuit Anatomy of the systemic arteries Anatomy of the systemic veins ...
... General anatomy of the blood vessels Blood pressure, resistance and flow Capillary exchange Venous return and circulatory shock Special circulatory routes Anatomy of the pulmonary circuit Anatomy of the systemic arteries Anatomy of the systemic veins ...
SMA and IMA
... infection, cancer etc. Cancerous lymph nodes or inflamed swollen lymph nodes will apply pressure to surrounding tissue; since veins are thin walled they are more likely than arteries to be compressed. Also, hepatic dysfunction can lead to novel and abnormal venous return ...
... infection, cancer etc. Cancerous lymph nodes or inflamed swollen lymph nodes will apply pressure to surrounding tissue; since veins are thin walled they are more likely than arteries to be compressed. Also, hepatic dysfunction can lead to novel and abnormal venous return ...
Organizational Overview of Thorax, Abdomen, Pelvis Introduction to
... Some organs (e.g. kidneys) are between peritoneum on one surface, and the body wall on the other – the RETROPERITONEAL condition. ...
... Some organs (e.g. kidneys) are between peritoneum on one surface, and the body wall on the other – the RETROPERITONEAL condition. ...
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.