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Published byPosy Shepherd Modified over 9 years ago
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Goal of the Cardiovascular System: deliver blood to all parts of the body Does so by using different types of tubing, attached to a pulsatile pump Elastic arteries Muscular arteries Arterioles Capillaries Venuoles Veins Distribution system broken up into areas called vascular beds Skin Digestive (splanchnic) Muscle
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Structure of vasculature changes in response to different needs
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Why does blood flow through this closed circuit? Blood flows down a pressure gradient The absolute value of the pressure is not important to flow, but the difference in pressure (DP or gradient) is important to determining flow. What happens to pressure if we decrease the volume of a fluid filled compartment (i.e. ventricles during systole)? P directly proportional to F The resulting pressure is called the driving pressure in the vascular system
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How does the flow differ in these two vessels?
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Vascular system possesses different mechanisms for promoting continuous flow of blood to the capillaries: Elastic recoil smooth m. regulation of diameter sphincters valves Muscular arteries
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ChemicalPhysiologic roleSourceType NE ( ) Baroreceptor reflexSympathetic neuronsNeural Endothelin ParacrineVascular endotheliumLocal Serotonin Platelet aggregation, smooth muscle contraction Neurons, digestive tract, platelets Local, neural Substance P Pain, increased capillary permeability Neurons, digestive tract Local, neural Vasopressin Increase blood pressure during hemorrhage Posterior pituitaryHormonal Angiotensin II Increase blood pressurePlasma hormoneHormonal Prostacyclin Minimize blood loss from damaged vessels before coagulation endotheliumlocal Substances causing contraction in vascular smooth muscle
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ChemicalPhysiologic roleSourceType Nitric oxideParacrine mediatorEndotheliumLocal Atrial natriuretic peptide Reduce blood pressureAtrial myocardium, brain Hormonal Vasoactive intestinal peptide Digestive secretion, relax smooth muscle NeuronsNeural, hormonal HistamineIncrease blood flowMast cellsLocal, systemic Epinephrine ( 2) Enhance local blood flow to skeletal muscle, heart, liver Adrenal medullaHormonal Acetylcholine (muscarinic) Erection of clitoris, penisParasympathetic neurons neural BradykininIncrease blood flow via nitric oxide Multiple tissuesLocal AdenosineEnhance blood flow to match metabolism Hypoxic cellslocal Substances that mediate vascular smooth muscle relaxation
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Even though there are many mechanisms for altering the radius of the vascular system, pressure still drops as blood moves further away from the heart. Why?
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Resistance = tendency of the vascular system to oppose flow; Flow = Influenced by: length of the tube (L), radius of the tube (r), and viscosity of the blood ( ) Poiseuille’s Law R = L r 4 In a normal human, length of the system is fixed, so blood viscosity and radius of the blood vessels have the largest effects on resistance 1 R
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All four tubes have the same driving pressure. Which tube has the greatest flow? The least flow? Why?
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Even with a decrease in overall pressure, the pressure in the vessels is not constant. The pressure in the vessels mirrors the pressures generated in the heart – systolic and diastolic pressures. Systolic = ventricles contracting Diastolic = ventricles filling Why does the diastolic pressure rise between the left ventricle and the arteries? Normal blood pressure = 120/80 High blood pressure = 140/90 What could be happening to increase both the diastolic and systolic blood pressure?
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Blood Pressure Reflects the driving pressures produced by the ventricles Because arterial pressure is pulsatile, a single value is used to represent the overall driving pressure. This is called the mean arterial pressure. MAP = diastolic P + 1/3(systolic P-diastolic P) Why does diastolic pressure account for a greater proportion of the overall value? SVR = systemic vascular resistance CO = cardiac output SV = stroke volume MAP = Q x R arterioles Explain how these two equations are equivalent
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What factors influence blood pressure? Blood volume Vascular resistance Autoregulation Autonomic influences
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Regulation of Blood Pressure Main coordinating center is in the medulla oblongata of the brain; medullary cardiovascular control center Reflex control of blood pressure Baroreceptor reflex
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