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1 Dr. abbas Foroutan Cardiac Mechanics Heart Physiology Heart as a pump 1384-85Oct.2005 By: Dr. Abbas Foroutan Shaheed Beheshti Univ. Med. Sci.
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2 Dr. abbas Foroutan Cardiac Mechanics Part 1 Anatomy
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3 Dr. abbas Foroutan Cardiac Mechanics Heart
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8 Dr. abbas Foroutan Cardiac Mechanics Part 2 Cardiac Cycle
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18 Dr. abbas Foroutan Cardiac Mechanics Animation\echo\1-Echo3-n.swf Animation\echo\1-Echo3-n.swf Animation\echo\1-Echo3-n.swf
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19 Dr. abbas Foroutan Cardiac Mechanics
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20 Dr. abbas Foroutan Cardiac Mechanics Cardiac Output CO = SV * HR CO = SV * HR Preload Preload Contractility Contractility Afterload Afterload HR HR
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21 Dr. abbas Foroutan Cardiac Mechanics Part 3 Preload Frank – Starling Law
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22 Dr. abbas Foroutan Cardiac Mechanics No spatial summation No spatial summation No Time domain summation (no tetanus) No Time domain summation (no tetanus)
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30 Dr. abbas Foroutan Cardiac Mechanics P1 P2 Q Blood Flow Q = P1 – P2 * Ca
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39 Dr. abbas Foroutan Cardiac Mechanics Laplac Law T= P* r/2h
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44 Dr. abbas Foroutan Cardiac Mechanics Part 4 Contractility
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49 Dr. abbas Foroutan Cardiac Mechanics Part 5 Afterload
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59 Dr. abbas Foroutan Cardiac Mechanics Blood volumeVenous tone
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60 Dr. abbas Foroutan Cardiac Mechanics Part 6 Heart rate
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70 Dr. abbas Foroutan Cardiac Mechanics Part 6 Exercise
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76 Dr. abbas Foroutan Cardiac Mechanics CARDIOVASCULAR CHANGES DURING EXERCISE Cardiac output Cardiac output heart rate ( sympathetic adrenergic and parasympathetic activity) heart rate ( sympathetic adrenergic and parasympathetic activity) stroke volume ( CVP; inotropy; lusitropy) stroke volume ( CVP; inotropy; lusitropy) Mean arterial pressure and pulse pressure Mean arterial pressure and pulse pressure CO increases more than SVR decrease CO increases more than SVR decrease stroke volume increases pulse pressure stroke volume increases pulse pressure Central venous pressure Central venous pressure Venous constriction ( sympathetic adrenergic activity) Venous constriction ( sympathetic adrenergic activity) Muscle pump activity Muscle pump activity Abdominothoracic pump Abdominothoracic pump Systemic vascular resistance Systemic vascular resistance Metabolic vasodilation in active muscle and heart Metabolic vasodilation in active muscle and heart Cutaneous vasodilation ( sympathetic adrenergic activity) Cutaneous vasodilation ( sympathetic adrenergic activity) Vasoconstriction in splanchnic, nonactive muscle, and renal circulation Vasoconstriction in splanchnic, nonactive muscle, and renal circulation ( sympathetic adrenergic activity) ( sympathetic adrenergic activity) CVP, central venous pressure; CO, cardiac output; SVR, systemic vascular resistance
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83 Dr. abbas Foroutan Cardiac Mechanics Return of blood to the heart through veins from the extremities occurs by low ∆P, but also, as in lymphatics, by one-way valves, "milking action" of skeletal muscles, and — within the torso — by lowered thoracic pressure each time the diaphragm is lowered (no valves within torso).
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