Term
| Relation of cardiac output to venous return |
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Definition
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Term
| Relation of CO to metabolic state of tissue |
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Definition
CO is proportional to tissue mass/metabolic rate |
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Term
Long term factors that affect CO |
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Definition
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Term
| Short term factors affectin CO |
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Definition
preload afterload contractility heart rate
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Term
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Definition
| mostly linear, unless it gets so fast the heart does not have enough time to fill with blood (decrease EDV) |
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Term
| Effect of sympathetic system on heart |
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Definition
positive chronotropic effect positive dromotropic effects positive inotropic effects
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Term
| Effect of parasympathetic system on heart |
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Definition
negative chronotropic effect negative dromotropic effect minor negative inotropic effect
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Term
| When you hear an individuals heart beat using a stethascope. At the same time you palpate pulse from wrist. Is the beat detected at the wrist the same beat that is heard thru the stethoschope? |
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Definition
They are the same. When you feel the pulse, you feel the pressure wave. The pressure wave is different from the actually velocity of blood. Since the arteries have sturdy walls, the presure wave moves faster. |
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Term
Relation of pulse pressure to flow |
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Definition
| pulse pressure is faster than flow and would occur even if their was no flow |
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Term
| What is pulse pressure dependent on |
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Definition
peripheral pressure stroke volume arterial compliance
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Term
| Compare blood pressure of medium size arteries to aorta pressure |
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Definition
Incisura disappears and hump disappears. |
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Term
Compare small arteries blood pressure to aorta pressure |
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Definition
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Term
| Compare equation of MAP for normal heart rates and rapid heart rates |
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Definition
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Term
| Pulse pressure is means to evaluate what? |
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Definition
| cardiac contractility (the greater the slope of the graph, the greater the contractility) |
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Term
Pulse pressure relation with compliance and how this is important as it relates to elastic arteries |
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Definition
pulse pressure increase with decreasing compliance elastic arteries keep pressure from getting too high, thereby causing loss of compliance
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Term
| Pulse pressure in diseases of aortic regurgitation |
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Definition
increase stroke volume increase systolic pressure decrease diastolic pressure (can't hold pressure long since blood is going backwards) substantial increases in pulse pressure
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Term
| Relation of left and right heart venous return |
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Definition
| left venous return equal to right venous return |
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Term
| Three extra pumpts aiding in venous return |
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Definition
respiratory pump aortic pump skeletal muscle pump
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Term
| Mechanism of action of skeletal muscle influencing venous return |
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Definition
contain valves in the veins of the limbs that direct the flow of blood to the heart, preventing edema skeletal muscle compress veins durin skeletal muscle contraction
Both of these events force blood back toward the heart. If muscle relaxes, venous pressure in that segment is low. |
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Term
| Clinical consequences of muscles in limbs are not contracting, to force blood back to heart |
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Definition
blood pools, leading to venous pressure rising after which, capillary absorption is reduced this leads to increased interstital fluid volumes and swelling
Prolonged quite standing leads to dependent edema and eventually fainting if venous pooling occurs and persists. |
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Term
| Define mean systemic filling pressure |
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Definition
| measure of the "fullness" of the CV circuit (where are the fluid is if you stop the heart from pumping) |
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Term
| How can you increase mean systemic filling pressure |
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Definition
| increase the volume of blood (ex: infusion of saline) |
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Term
| Effect of exhalation on heart function |
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Definition
increase intrathoracic pressure increase right atrial pressure decrease pressure difference decrease venous return
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Term
| Effect of inhalation on heart function |
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Definition
decrease intrathoracic pressure decrease right atrial pressure increases pressure difference increases venous return
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Term
| Effect of total peripheral resistance on venous return |
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Definition
| increases in total peripheral resistance will decrease venous return (harder for blood to flow thru circuit) |
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Term
| Effect of gravity on venous return (same effect on arteries and veins) |
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Definition
if you stand, your venous blood will drain toward the feet, away from the heart, decreasing venous return leads to pooling of blood to stretchable veins typically, you will see higher pressures on lower limbs that push blood up toward heart you still have the same pressure gradient pushing blood from arteries to heart, but the pressure in the arteries and veins, respectively, increase equally due to gravity
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Term
| Factors affecting venous return |
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Definition
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Term
| Equation of absolute pressure |
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Definition
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Term
| Clinical application- what is the importance of fact that if I am above the heart (head) the gravity effect will decrease absolute pressure? |
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Definition
| If you have a crack in your skull, air moves into blood based on pressure differential (veins have negative absolute pressure), so you can get an embolism. |
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Term
| effect of sympathetic stimulation of VENOUS VESSELS on venous return |
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Definition
cause venoconstriction, which will reduce venous compliance, increases venouse return |
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Term
| Relation between vein complaince and venous return |
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Definition
| decrease in venous compliance, means less flaccid veins, making our circuit more full, so MSFP increases, leading increase venous return |
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