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Cardiovascular System Basic Overview of Blood Vessels MAIN FUNCTION: Transport O2, CO2, and nutrients around the body • Arteries and arterioles (carry blood away from the heart) • Veins and venules (carry blood towards the heart) • Capillaries (where nutrients and O2 diffuse into your body tissues and cells) The Chambers of the Heart • Consists of 4 chambers • Pumping chambers are the ventricles: - Right ventricle pumps blood to lungs - Left vent. pumps blood to rest of body • Receiving chambers are the atria -right atrium receives O2 poor blood from the body - left atrium receives O2 rich blood from lungs QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. The Valves of the Heart • Consists of 4 main valves to prevent • • the backflow of blood Semi-lunar valves are where blood is pumped out of the heart into major arteries - Pulmonary semilunar valve (right side) - Aortic semilunar valve (left side) AV valves between atria and ventricles (tricuspid on right, mitral (aka bicuspid) on the left) QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. Coronary Blood Vessels • Coronary arteries • supply myocardium (heart muscle) with oxygen and nutrients Heart attacks occur when a blockage occurs in a coronary artery Anatomy of Blood Vessels Contain three layers (tunics): • Tunica interna (intima) - inner layer in contact with blood which contains the endothelium that lines the interior of all vessels • Tunica media - muscular layer QuickTime™ and a (smooth) responsible for vasodilation TIFF (Uncompressed) decompressor and vasoconstriction are needed to see this picture. • Tunica externa (adventitia) - mostly collagen (also elastin) to reinforce vessel (nerves and lymphatic vessels also invade this layer) Blood Pressure Definition: The force exerted on a vessel wall by the bloodstream. • Usually refers to pressure in arteries closest to the heart • Pressure is higher during systole (contraction of ventricles) and lower during diastole (relexation of ventricles) • Typical pressure 120/80 (systolic/diastolic) Some Factors Affecting Blood Pressure • Cardiac Output: amount of blood pumped from the ventricles per minute • Peripheral Resistance: opposition to blood flow in blood vessels away from the heart (blood viscosity, blood vessel length and diameter affect resistance) • Blood volume: amount of fluid in the blood stream at any given time *Baroreceptors (sensory neurons) in arterial walls monitor blood pressure and send signals to the vasomotor centers in the medulla to regulate changes in BP (see figure 19.8 on pg. 727) Hypertension (high blood pressure) Why is it dangerous? • Heart must work harder to pump against a greater resistance (can lead to heart failure - weakening of the left ventricle) • More peripheral resistance damages endothelium (inner walls) of arteries and can damage small blood vessels in many organs (kidneys, eyes for ex.) • Chronic HBP: 140/90 or greater QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. Atherosclerosis • Disease of the arterial • • wall caused by the formation of plaques Cholesterol is deposited by LDL particles in areas of damaged endothelium (1st step in plaque formation) When plaques rupture, blood clots form leading to blockage of small arteries Lipoproteins and Cholesterol • Lipoproteins are molecules that carry cholesterol to and from tissues (are produced in the liver) • LDL (low density - BAD) particles carry cholesterol to the tissues (excess cholesterol ends up in arterial walls forming plaque) • HDL (high density - GOOD) particles take cholesterol from tissues and blood vessels and bring it to the liver for disposal QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. Conduction System of Heart • SA node (pacemaker of heart) in right atrium • Sends signals to AV node (also in right atrial wall) • Signals travel down septum of heart via Bundle of His • Signal then travels to ventricular walls via Purkinje fibers QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. ECG (electrocardiogram) a.k.a EKG • Shows electrical • • • excitation of cardiac conduction system P wave - atrial depolarization QRS wave ventricular depolarization T wave - ventricular repolarization QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. The Blood Blood Composition • Blood consists of: 1) Plasma - mostly 2) 3) water, soluble proteins Erythrocytes (red blood cells) Buffy coat (Leukocytes (white blood cells), platelets) QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. The Three Formed Elements • Erythrocytes (Red Blood Cells) transports O2 and CO2 in the blood • Leukocytes (White Blood Cells) - help to defend the body against foreign invaders and cancer cells • Platelets - function in hemostasis (coagulation or clotting of blood) * All are produced during hematopoiesis in red bone marrow Erythrocytes (RBC) • Carry respiratory gases (oxygen and CO2) in • • • • the blood Hemoglobin protein binds O2 (see figure 17.4) Live about 120 days - old RBCs are broken down in liver, spleen and bone marrow Contribute to blood viscosity (more RBC means “thicker” blood) Erythropoietin (hormone released by kidneys) stimulates RBC production or erythropoiesis (see figure 17.6 in book) Blood antigens and antibodies • Antigens (also called agglutinogens) are • • • proteins on cell membranes that identify the cell as belonging to that person Antibodies, or agglutinins (proteins that can attach to antigens) also circulate in the blood A, B, and Rh antigens are used in blood typing and transfusions Transfusion of the wrong blood type results in agglutination (clumping of blood cells as they are attacked by antibodies) and hemolysis (destruction of erythrocytes) Table 17.4 pg 668 QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. Universal recipient Universal donor