Blood Vessels and Circulation

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venous reserve

the amount of blood that can be shifted from veins in the liver, skin, and lungs to general circulation

anastomosis

a joining of blood vessels

function of arteries

carry blood away from the heart

sinusoid capillaries

resemble fenestrated capillaries that are flattened and irregularly shaped. they commonly have gaps between endothelial cells. they permit the free exchange of water and solutes as large as plasma proteins.

where would you expect valves to be most critical?

venules and medium veins

describe how the venous system volume can change

1. venoconstriction 2. venous reserve

where are precapillary sphincters?

guards the entrance to each capillary

arteriosclerosis

a thickening and toughening of arterial walls. account for about half of all deaths in the united states. tends to develop in people whose plasma has elevated levels of lipids.

capillary bed

an interconnected network of capillaries

explain why veins are referred to as blood reservoirs and capacitance vessels

capacitance vessels- expands easily (about 8 times as much as its corresponding artery

how does the capillary's structure support its function?

capillary walls are thin and diffusion distances are short because they weave throughout active tissues and for networks around muscle fibers. blood flows through capillaries relatively slowly so there is time for diffusion or active transport of materials.

mechanisms that regulate blood flow through arterioles and capillary beds

cardiac output, peripheral resistance, blood pressure

why are arterioles called resistance vessels?

changes in an arteriole's diameter affect the amount of force required to push blood through a constricted vessel than through a dilated one. the force opposing blood flow is called resistance.

characteristics of arterioles

considerably smaller than muscular arteries. have a poorly defined tunica externa. contain smooth muscle cells. the diameter changes in response to local conditions or sympathetic stimulation.

fenestrated capillaries

contain pores that penetrate the endothelial lining. allow rapid exchange of water and solutes between blood and interstitial fluid. located in choroid plexus of the brain, in endocrine organs, absorptive areas of the intestinal tract. permeability depends on region.

which is the most common type of capillary?

continuous capillaries

how do precapillary sphincters affect blood flow through the capillary bed?

contraction of smooth muscle cells narrows the entrance, reducing or stopping blood flow. when the sphincter relaxes, blood flows into the capillary.

venoconstriction

decreases the amount of blood within the venous sstem, increasing the volume in the arterial system. can keep blood volume with arteries at a near-normal level despite a significant blood loss.

compare and contrast arteries and veins.

differences: - walls of arteries are thicker than those of veins. the tunica media of an artery contains more smooth muscle and elastic fibers. -the lumen appears smaller than the corresponding vein. arteries keep their circular shape when sectioned while veins tend to collapse and look flattened. -arteries are more resilient. when stretch they keep their shape and lengthen, while veins cannot tolerate as much distortion without tearing. -veins typically contain valves -arteries have rippled endothelium due to vessel constriction while the endothelium of veins is smooth -arteries have internal elastic membranes and veins do not similarities:

importance of the elastic and contractile nature of arteries

elasticity permits the vessel diameter to change passively in response to changes in blood pressure. contractility enables them to actively change in diameter.

differentiate between elastic and muscular arteries.

function: elastic arteries carry large volumes of blood away from the heart. muscular arteries distribute blood to the body's skeletal muscles and internal organs. -elastic arteries contain a high density of elastic fibers and few smooth muscle cells. -muscular arteries have a thick tunica media which contains more smooth muscle cells than elastic arteries. location: elastic- pulmonary trunk and aorta muscular- external carotid arteries of neck, brachial arteries, femoral arteries

how are anastomosis useful in the event of a bloog vessel occlusion? where are these especially important?

if one artery is blocked, capillary circulation will continue. especially important in esophegael, rectal, and paraumbilical regions

vasomotor tone

produced by constant action of sympathetic vasoconstrictor nerves

describe the distribution of blood throughout the body

venules and medium-sized veins- 25% large venous networks- 21% large veins- 18% systemic capillaries- 7% heart- 7% muscular arteries- 5% elastic arteries- 4% pulmonary veins- 4% pulmonary arteries- 3% pulmonary capillaries- 2% arterioles- 2%

course of circulation of blood through blood vessels on the way back to the heart

venules collect blood from capillary beds, then moves to medium sized veins to large veins.

describe the walls and pressure within veins

walls are thinner than those of corresponding arteries and have lower pressure. their diameters are also generally large than arteries.

aneurysm

when local arterial pressure exceeds the capacity of the elastic components of the tunics. this results in a bulge in the weakened wall of the artery. this can result in a catastrophic blowout.

5 types of blood vessels

1. arteries 2. arterioles 3. capillaries 4. venules 5. veins

three types of capillaries

1. continuous 2. fenestrated 3. sinusoid

differentiate between the 3 different layers of the blood vessel wall

1. tunica intima- inner layer, contains endothelial lining and connective tissue 2. tunica media- middle layer. contains concentric sheets of smooth muscle tissue. binded to the tunica intima and tunica externa by collagen fibers. is thicker than the turnica externa in arteries. 3. tunica externa-outer layer. connective tissue sheath. thicker in veins than the tunica media

relationship of the 5 types of blood vessels to each other.

arteries transport oxygenated blood away from the heart (except the pulmonary artery), arterioles transport blood from arteries to cappillaries, capillaries supply the tissues of the body with blood and removes waste from surrounding cells. venules drains blood for capillaries into the veins, and veins transport deoxygenated blood towards the heart (except the pulmonary vein)

perfusion

blood flow through tissues which carries O2 and nutrients to the tissues and CO2 and wastes away.

vasa vasorum

means "vessel of vessels" they are small arteries and veins in the walls of large vessels that supply the smooth muscle cells and fibroblasts of the tunica media and tunica externa. they are needed because the walls of arteries and veins are too thick to allow diffusion between the bloodstream and surrounding tissues.

function of capillaries

site of diffusion between blood and interstitial fluid / tissues

how does the sympathetic nervous system affect contractility in arteries?

stimulation arterial smooth muscles contract, constricting the artery. (vasoconstriction). when the muscles relax, vasodilation occurs.

varicose veins

superficial distended veins caused by the weakening and stretching of valves (causing blood pooling in veins)

how does an artery respond in hemostasis?

the artery contracts which helps to reduce bleeding

continuous capillaries

the endothelium is a complete lining. located in all tissues except epithelia and cartilage. permit passage of water, small solutes, and lipid-soluble materials to diffuse into the interstitial fluid. they prevent the loss of blood cells and plasma proteins.

why are valves necessary in veins but not arteries?

the pressure in venules and veins is so low that it cannot overcome the force of gravity. the valves are needed so that the blood will flow in one direction only. the arterial system is high-pressure.

identify the branch of the autonomic system that innervates blood vessels. what layer of blood vessel wall do these innervate?

the sympathetic division- targets smooth muscle


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