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For sophomores and juniors interested in medical school at: • A visit by Dr. Jim Stallworth and other guests from USC School of Medicine in Columbia, SC. • In RMSC 122 (The Pit) starting at 6:30pm, Tuesday Nov 13th. • Presentation and discussion on admissions and opportunities. Abstracts and Test 2 • Earn up to 5 points for Test # 2 based on topics of Frog Heart Lab: – Regulation of pacemaker cells by temperature, hormones, neurotransmitters, antagonists – Heart block: 1st, 2nd, and 3rd degree – The conducting system – Strategies for prolonging survival of in vitro organs Cardiac Cycle Animation 1QQ #25 for 10:30 Write the number of the one you choose to answer. 1. Which is more serious and why: atrial fibrillation or ventricular fibrillation? 2. Explain the Frank-Starling Law of the Heart in terms of what happens in cardiac myofiber sarcomeres as end-diastolic volume exceeds 400 ml. 3. What are three ways by which stroke volume can be increased? 1QQ #25 for 11:30 Write the number of the one you choose to answer. 1. What is potentially dangerous about cardiac hypertrophy that accompanies rigorous physical training? 2. Explain the Frank-Starling Law of the Heart in terms what happens in cardiac myofiber sarcomeres as venous return increases. 3. What are the effects of sympathetic stimulation on cardiac myofibers? S 11 Factors that control Cardiac Output by changing heart rate and stroke volume. Afterload (MAP) CO = HR x SV + sympathetic - parasympathetic VR and EDV (FSLoH) Contractility (catecholamines) 5L/min = 72 beat/min x 70 ml/beat 35L/min = ? beat/min x ? ml/beat Summary of Factors that Regulate Cardiac Output S 12 Fig. 12.28 Even persons with heart transplants can adjust CO in the absence of innervation of heart. Exercise………increase CO The report CNN website S 13 Heart is pump that generates pressure gradient. Blood flows through vessels, which have resistance. Arterioles have greatest resistance and create “backpressure” in the arteries and aorta. Mean Arterial Pressure = diastolic +1/3(systolic – diastolic) = 70 + 1/3(120-70) = 70 + 17 = 87 mm Hg S 14 Mean Arterial Pressure = Cardiac Output x Total Peripheral Resistance MAP = CO x TPR MAP = (HR x SV) x TPR Who Cares? Hemorrhage Diagram from memory on Friday November 30th. Name _________________________________________ On the back side of this page, create a diagram for the following. Your response must be confined to the reverse side of this page and you must write legibly. Your response will count 15-20% of the grade on Test 3 and should require no more than 15 minutes to complete at the beginning of class on Friday November 30th. Beginning with a loss of about 1 liter of blood from a vein, diagram the early events associated with hemorrhage and the negative feedback responses to hemorrhage in a well-organized diagram. Write legibly! Completeness, accuracy, and detail, together with the proper sequence earn maximal points. The following abbreviations can be used: AI, AII, JGA, mAChR, Hct, Q, SV, EF, RBC, HR, EDV, ACh, ANH, ADH, CO, TPR, EPO, VR, MAP, EPI, NE, SAN, aAdR , bAdR, Symp (sympathetic), Parasymp (parasympathetic), PV, r (radius), Pc, fAP (frequency of action potentials.) Any other abbreviations must be defined. "If in doubt, write it out!" Use single headed arrows (→) to indicate sequential relationships and doubled-stemmed arrows to indicate increases or decreases. Pressure gradients in systemic vessels Velocity in systemic vessels Why is velocity slowest in capillaries and venules? Flow =ml/min = Riders/min past a location Velocity = m/sec for each rider Velocity slows for exchange Diameter of systemic vessels by type Cumulative cross sectional area of vessels by type Why is velocity slowest in capillaries and venules? S1 Properties of Blood Vessels All vessels and heart chambers lined with ENDOTHELIAL cells (simple squamous) • Arteries • Arterioles Variable Resistance vessels • Capillaries Exchange • Venules Capacitance vessels, high • Veins compliance, low pressure, Elastic, low compliance, large diameter, low resistance vessels Wall = simple squamous endothelium No smooth muscle; cannot change diameter valves for unidirectional flow S4 Fig. 12.30 Stretching elastic connective tissue Elastic recoil of stretched arterial walls during ventricular systole maintains arterial pressure during diastole as blood drains into arterioles. Atherosclerosis Recoil of elastic connective tissue Point of Confusion: Smooth muscles in arterial walls DO NOT rhythmically contract, do not pump! Elastic recoil maintains internal pressure without expending energy Arteries are a pressure reservoir to maintain pressure between during ventricular diastole and to keep blood flowing to arterioles during diastole. S5 Arteries and Arterial Pressure Mean Arterial Pressure Arterioles have two main functions: 1) regulate flow to tissues and organs and 2) responsible for Total Peripheral Resistance which influences Mean Arterial Pressure. MAP = CO x TPR Poiseulle’s Equation Arteriole S6 Fig. 12.50 Heart Arteries Mean Arterial Pressure Totol Peripheral Resistance CNS Skin Sk. Muscle Gut Arterioles Kidneys Cardiac Output What regulates the smooth muscle of arterioles? Extrinsic controls: Intrinsic controls: S8 Fig. 12.36 Metabolic vasodilators No parasympathetic innervation of arterioles! Importance of sympathetic “tone.” Metabolic autoregulation, flow autoregulation, myogenic autoregulation Who Cares? Migraine headaches and sumatriptans (agonists for 5-HT1 receptors) to stimulate vasoconstriction.