A&P 19: The Cardiovascular System - Blood Vessels Flashcards
Blood vessels
closed delivery system that begins and ends at the heart
Arteries
vessels that carry blood away from the heart
Veins
vessels that carry blood toward the heart
Lumen
innermost tunic of blood vessel walls
Tunica intima
innermost tunic of blood vessels
Endothelium
simple squamous epithelium that lines the lumen of all vessels; continuous with the endocardial lining of the heart; provides a flat, slick surface that minimizes friction as blood moves through the lumen
Tunica media
middle tunic; mostly circularly arranged smooth muscle cells and sheets of elastin
Vasoconstriction
lumen diameter decreases as the smooth muscle contracts
Vasodilation
lumen diameter increases as the smooth muscle relaxes
Tunica externa
outermost layer of a blood vessel wall; AKA tunica adventicia; composed largely of loosely woven collagen fibers that protect and reinforce the vessel, and anchor it to surrounding structures
Vasa vasorum
system of tiny blood vessels that nourish the more external tissues of the blood vessel wall
Elastic arteries
thick-walled arteries near the heart (aorta and its major branches); AKA conducting arteries
Muscular arteries
arteries that deliver blood to specific body organs; AKA distributing arteries; have the thickest tunica media of all vessels; have an elastic membrane on each face of the tunica media
Arterioles
smallest of the arteries
Capillaries
microscopic; smallest blood vessels; exceedingly thin walls consist of just a thin tunica intima
Pericytes
spider-shaped; smooth muscle-like cells that stabilize the capillary wall and help control capillary permeability
Continuous capillaries
most common capillaries; abundant in the skin and muscles; endothelial cells are joined by tight junctions
Intercellular clefts
gaps of unjoined membrane in tight junctions, just large enough to allow limited passage of fluids and small solutes
Fenestrated capillaries
endothelial cells in these capillaries are riddled with oval pores; found wherever active capillary absorption or filtrate formation occurs
Sinusoid capillaries (sinusoids)
highly modified, leaky capillaries found only in the liver, bone marrow, spleen, and adrenal medulla; have large, irregularly shaped lumens, usually fenestrated
Stellate macrophages
hepatic macrophages which remove and destroy bacteria in the endothelium of the sinusoid lining in the liver
Capillary beds
interweaving networks of capillaries
Microcirculation
flow of blood from an arteriole to a venule
Terminal arteriole
artery feeding the capillary beds
Metarteriole
vessel structurally intermediate between an arteriole and a capillary
Thoroughfare channel
continuous with a metarteriole; intermediate between a capillary and a venule
Postcapillary venule
the thoroughfare channel joins this vein that drains the capillary bed
True capillaries
10-100 per capillary bed, depending on the organ or tissue served
Precapillary sphincter
cuff of smooth muscle fibers; surrounds the root of each true capillary at the metarteriole and acts as a valve to regulate blood flow into the capillary
Venules
capillaries unite to form these vessels, which range from 8 to 100 micrometers in diameter
Capitance vessels/blood reservoirs
veins are called these because they can hold up to 65% of the body’s blood supply at any time
Venous valves
formed from folds of the tunica intima, resemble the SL ___ of the heart in structure and function; prevents blood from flowing backwards
Varicose veins
veins that are tortuous and dilated because of incompetent (leaky) valves; more than 15% of adults suffer from these, usually in the lower limbs
Venous sinuses
highly specialized, flattened veins with extremely thin walls composed only of endothelium; supported by the tissues that surround them, rather than by any additional tunics
Vascular anastomoses
blood vessels form these special interconnections
Arterial anastomoses
arteries supplying the same territory often merge, forming these
Collateral channels
anastomoses provide these alternate pathways for blood to reach a given body region
Arteriovenous anastomoses
metarteriole-thoroughfare channel shunts of capillary beds that connect arterioles and venules are examples of the interconnection
Venous anastomoses
veins interconnect into these more frequently than arteries form their interconnections
Arteriosclerosis
the walls of arteries become thicker and stiffen
Atheroscerosis
most common form of arteriosclerosis; small patchy thickenings (atheromas) form that can intrude into the vessel lumen, making it easy for arterial spasms or a roaming blood clot to close the vessel completely
Fatty streak
accumulating foam cells form this first visible sign of an atheroma
Fibrous/atherosclerotic plaques
fibrous lesions with a core of dead and dying foam cells
Complicated plaque
cells at its center die, calcium is deposited, and collage fiber production by smooth muscle cells decline; now unstable and prone to rupture
Blood flow
volume of blood flowing through a vessel, an organ, or the entire circulation in a given period (mL/min); = to cardiac output
Blood pressure (BP)
force per unit area exerted on a vessel wall by the contained blood (mm Hg)
Resistance
opposition to flow; measure of the amount of friction blood encounters as it passes through the vessels
Peripheral resistance
most friction is encountered in the systemic circulation (well away from the heart)
Systolic pressure
pressure peak generated by ventricular contraction; averages 120mmHg in healthy adults
Diastolic pressure
when aortic pressure is at its lowest level (70-80mmHg in healthy adults)
Pulse pressure
difference between the systolic and diastolic pressures; felt as a throbbing pulsation in an artery during systole
Mean arterial pressure (MAP)
pressure that propels the blood to the tissues; diastolic + (pulse pressure/3)
Muscular pump
consists of skeletal muscle activity
Respiratory pump
moves blood up toward the heart as pressure changes in the ventral body cavity during breathing
Cardiovascular center
Cardioacceleratory/cardioinhibitory centers and the vasomotor center
Vasomotor center
controls the diameter of blood vessels
Vasomotor fibers
the vasomotor center transmits impulses at a fairly steady rate along these sympathetic efferents
Vasomotor tone
arterioles are almost always in this state of moderate constriction
Baroreceptors
stretch receptors that are activated when arterial blood pressure rises
Carotid sinus reflex
baroreceptors taking part in this reflex protect the blood supply to your brain
Aortic reflex
baroreceptors taking part in this reflex help maintain adequate blood pressure in the systemic circuit as a whole
Chemoreceptors
when CO2 levels rise, or pH falls, or oxygen content of the blood drops sharply, these receptors in the aortic arch and large arteries of the neck transmit impulses to the cardioacceleratory center, which then increases cardiac output, and to the vasomotor center, which causes reflex vasoconstriction
Epinephrine & norepinephrine
hormones that enhance the sympathetic response by increasing cardiac output and promoting generalized vasoconstriction
Angiotensin II
renin, acting as an enzyme, generates this, which stimulates intense vasoconstriction, promoting a rapid rise in systemic blood pressure
Atrial natriuretic peptide (ANP)
the atria of the heart produces this hormone, which leads to a reduction in blood volume and blood pressure
Antidiuretic hormone (ADH/vasopressin)
produced by the hypothalamus, stimulates the kidneys to conserve water; not important in short-term BP regulation; when BP falls to dangerously low levels, much more of this is released and helps restore arterial pressure by causing intense vasoconstriction
Renin-angiotensin-aldosterone mechanism
the kidneys can regulate blood pressure indirectly by this mechanism
Renin
when arterial blood pressure declines, certain cells in the kidneys release this enzyme into the blood
Angiotensinogen
renin enzympatically cleaves this plasma protein made by the liver, converting it to angiotensin I
Angiotensin converting enzyme (ACE)
converts angiotensin I to angiotensin II
Aldosterone
angiotensin II stimulates the adrenal cortex to secrete this hormone that enhances renal absorption of sodium (water follows)
Vital signs
pulse, blood pressure, respiratory rate, body temperature are collectively called this
Pulse
the alternating expansion and recoil of arteries during each cardiac cycle allow us to feel this pressure wave that is transmitted through the arterial tree
Pressure points
clinically important arterial pulse points; compressed to stop blood flow into distal tissues during hemorrhage
Auscultatory method
most often, systemic arterial blood pressure is measured indirectly in the brachial artery of the arm
Hypertension
chronically elevated blood pressure; characterized by a sustained increase in either systolic (above 140) or diastolic (above 90)
Primary (essential) hypertension
about 90% of hypertensive people have this type, for which no underlying cause has been identified
Secondary hypertension
accounts for 10% of hypertension cases; due to identifiable conditions (ex. obstructed renal arteries, kidney disease, endocrine disorders ~ hyperthyroidism, Cushing’s)
Hypotension
low blood pressure (below 90/60); reflects individual variations and is no cause for concern
Tissue perfusion
blood flow through body tissues
Autoregulation
automatic adjustment of blood flow to each tissue in proportion to the tissue’s requirements at any instant
Nitric oxide (NO)
powerful vasodilator which acts via a cyclic GMP second-messenger system
