circulatory system Flashcards
(53 cards)
blood vessel structure
tunic intima- outer membrane basement
tunic media- vasoconstriction/ dilation, elastin
tunic externa-tough connective tissue, collagen fibres
elastic arteries
thick walls
near the heart
elastin present in all tunics
conducting vessels- conduct blood away from the heart
muscular arteries
thick tunica media
distributing vessels- change diameter to control blood flow to body regions and organs
arterioles
smallest arteries
tunica media
resistance vessel-change diameter to control resistance to blood flow, controls flow into capillary beds within specific tissues/ organs
capillaries
thin walls of tunic intimate and supportive basement membrane
change vessel- exchange nutrients, waste, gases, hormones with interstitial fluid & thus with cells
continuous capillaries
endothelial cells joined by tight junctions to form smooth, lining
intercellular clefts- some gaps between endothelial cells allow limited passage of fluids and small solutes
pinocytitic vesicles ferry fluids and larger solutes across the capillary wall
fenestrated capillaries
endothelial cells contain pores
pores increase permeability to rapid exchange of fluid and small solutes
found in areas of active filtration, absorption, or in endocrine glands
sinusoidal capillaires
most leaky
large spaces between endothelial cells and large fenestrations, incomplete basement membrane
slow blood flow allows large molecules and cells to pass between the blood and tissues
found in the liver, lymphoid organs, adrenal medulla
venues and veins
capillaries unite to form venues venues unite to form veins tunica intima folds to form valves little smooth muscle or elsatin thick tunic external of collagen fibres capacitance vessels- thick tunica external provides support for accommodating a large blood volume
functions of veins and venues
veins= return blood to the heart, large capacity to hold blood and act as a blood reserve venules= drain bed capillary beds
blood flow
volume of blood flowing through a vessel, organ or entire circulation in a given period
- is determined by blood pressure and resistance
blood pressure
force exerted on a vessel wall by the blood in that vessel
force, generated by the pumping action of the heart that keeps blood moving, blood moves form an area of high pressure to lower pressure
resistance
amount of friction blood encounters as it flow through a vessel
3 primary TPR
blood viscosity
total blood vessel length
blood vessel diameter
TPR viscosity
thickness or stickiness of a fluid
due to concentration of blood cells and plasma proteins
-> haematocrit =-> viscosity
plasma volume =-> viscosity
TPR vessel length
resistance to flow increase as vessel length increases
changes overtime in children growth
TPR vessel diametre
amount of contact between 2 surfaces determines the amount of friction=ease of movement
more contact the blood vessel has with the walls of the vessel means more friction between the blood and the vessel wall= more resistance to flow
-> diametre =
flow, pressure and resistance
F= P/R
direct relo between f & P if P increase F increase
indirect repo between F & R if R increase F decreases
cardio vascular system maintains adequate blood flow by altering TPR
during exercise blood flow to skeletal muscle must increase
vasodilation blood flow
pressure must -> by -> CO
arterial blood pressure factors
elastic arteries can be stretched
volume of blood forced into elastic arteries by ventricular contraction
systolic pressure
peak pressure generated in the large arteries when ventricle contract
diastolic pressure
pressure in the large arteries during ventricular relaxation
pulse presssure
PP= SP- DP
mean arterial pressure
MAP= pressure that propels blood through the vessel
MAP decline with increasing distance from the heart
MAP= DP+(1/3 x PP)
