L20 - Cardiovascular System 3

Question 1

Why are valves integral to healthy heart function?

Answer 1

ensure unidirectional flow

open / close passively

Question 2

What causes the opening and closing of valves in the heart?

Answer 2

pressure differences between components of the heart

Question 3

When do the atrioventricular valves close?

Answer 3

when the ventricles start to contract

Question 4

When do the semilunar valves close?

Answer 4

when the ventricles relax

Question 5

When do valves close in general?

Answer 5

when pressure in current compartment becomes greater than pressure in previous compartment

Question 6

What are the sounds of the heart? What causes these sounds?

Answer 6

sound 1 and sound 2

occur when heart valves close (sudden turbulent flow and vibration)

Question 7

What is sound 1 caused by?

Answer 7

closure of atrioventricular (AV) valves (contraction)

Question 8

What is sound 2 caused by?

Answer 8

closure of semilunar valves (relaxation)

Question 9

What will cause the AV valves to close? (contraction or relaxation of ventricles / greater pressure in ventricles than atria or greater pressure in atria than ventricles)

Answer 9

pressure in ventricles become greater than pressure in atria

ventricles start contracting

Question 10

What affects the movement of blood?

Answer 10

heart - source of energy
gravity
skeletal muscle
diaphragm movements
elastic tissue

Question 11

What is systolic BP?

Answer 11

max pressure exerted in arteries when blood is ejected into them during systole (heart contracting phase)

Question 12

What is diastolic BP?

Answer 12

min pressure within arteries when blood draining off into remainder of vessels during diastole (heart relaxing / filling phase)

Question 13

What is pulse pressure?

Answer 13

a measure of strength of pressure wave

difference between systolic and diastolic BP

Question 14

What is mean arterial pressure?

Answer 14

average pressure responsible for driving blood forward into tissues throughout cardiac cycle

Question 15

Why is regulation of MAP important?

Answer 15

essential for efficient function and life
low BP = dizziness, organ failure
high BP = stroke, aneurysm

Question 16

What determines MAP?

Answer 16

how much blood is pumped out per unit time

how difficult / easy is it for the blood to move through the system

Question 17

What determines how much blood is pumped out per unit time?

Answer 17

stroke volume x heart rate = cardiac output

Question 18

What determines how difficult / easy it is for the blood to move through the system?

Answer 18

total peripheral resistance (TPR) = resistance of the peripheral circulation

Question 19

What is MAP proportional to?

Answer 19

cardiac output x total peripheral resistance

Question 20

How is stroke volume calculated? How can stroke volume be increased?

Answer 20

end diastolic volume minus end systolic volume
increasing end diastolic volume or decreasing systolic volume via more forceful contractions resulting in less blood leftover in the heart

Question 21

What is cardiac output?

Answer 21

volume of blood pumped by one ventricle in a given period of time

Question 22

What is stroke volume?

Answer 22

amount of blood pumped by one ventricle during a contraction

Question 23

What is stroke volume? What affects stroke volume?

Answer 23

force of ventricular contraction
affected by:
length of muscle fiber (volume of blood in chamber at start of contraction)
contractility of heart (neural influences)

Question 24

What is the stretch-force relationship in heart? (Frank-Starling Law)

Answer 24

as more blood enters the heart, length of muscle fibres stretches towards optimum length resulting in increased contractile force

Question 25

What is end-diastolic volume determined by?

Answer 25

venous return which is controlled by the skeletal muscle pump, the respiratory pump and neural control of the venous system

Question 26

What does neural control of the venous system involve?

Answer 26

sympathetic tone and varying degree of vasoconstriction

Question 27

How does norepinephrine affect stroke volume?

Answer 27

increases stroke volume as it increases the strength of contraction of muscle fibres

Question 28

How does the sympathetic nervous system modulate heart rate?

Answer 28

changes ion permeability
depolarises
reaches threshold sooner
β1-receptors (noradrenaline)

Question 29

How does the parasympathetic nervous system modulate heart rate?

Answer 29

changes ion permeability
hyperpolarizes
takes longer to reach threshold
muscarinic receptors (ACh)

Question 30

How does the sympathetic nervous system affect conduction of AV node?

Answer 30

enhances conduction

Question 31

How does the parasympathetic nervous system affect conduction of AV node?

Answer 31

slows conduction

Question 32

How does the body maintain the same mean arterial pressure if TPR is changing all the time?

Answer 32

modulating cardiac output because MAP = CO x TPR

Question 33

Why is there a fall in cardiac output when we stand?

Answer 33

pooling of blood in legs -> reduced venous return -> reduced CO -> fall in MAP

Question 34

Can the body measure cardiac output?

Answer 34

not directly

for a given TPR, MAP is an indication of the adequacy of cardiac output