WEEK 4 - CARDIO Pt3

Question 1

what point of blood pressure is systole and diastole?

Answer 1

systole: highest blood pressure point
diastole: lowest blood pressure point

Question 2

what is happens to the atrial bp?

Answer 2

it never gets really low and remains at a pretty constant level as it is one of the most critical factors that the body regulates (it is prioritised).

Question 3

what happens if the mean aterial pressure (MAP) falls?

Answer 3

you get not enough blood flow to the brain and extremeties.

Question 4

what is MAP?

Answer 4

mean arterial pressure - a balance between the blood flowing in and out of arteries which is determined by how much blood is in the arteries.

Question 5

what controls the blood flow out of arteries into capillaries?

Answer 5

resistance of arteries.

Question 6

blood in/out determines:

Answer 6

pressure

Question 7

increased resistance =

Answer 7

descrease in outflow

Question 8

increased output =

Answer 8

increase in flow

Question 9

what is the equation for aterial pressure?

Answer 9

arterial pressure = cardiac output x total peripheral resistance.

Question 10

flow =

Answer 10

pressure/resistance

Question 11

MAP =

Answer 11

cardiac output x total peripheral resistance

Question 12

CO =

Answer 12

stroke volume (L/beat)[contraction strength] x heart rate (beats/min)[contraction speed]

Question 13

what is the brain vs sa node’s role in the beating of the heart?

Answer 13

the sa node makes the heart beat, but the brain tells it to speed up or slow down.

Question 14

whats the difference between efferent and afferent?

Answer 14

afferent input: from systems to monitor what is happening

efferent output: instructions from brain to systems

Question 15

what are baroreceptors?

Answer 15

blood pressure sensors - they are strentch receptors, mostly in the aortic arch.

Question 16

parasympathetic:

Answer 16

break - rest and digest

Question 17

sympathetic:

Answer 17

accelorator - fight or flight

Question 18

to bring blood pressure down:

Answer 18

less input using efferent output from vagus nerve through parasympathetic system.

Question 19

wdoes the vagus nerve do?

Answer 19

connects brain to heart at SA and AV nodes.

Question 20

to bring blood pressure up:

Answer 20

sympathetic system through sympathetic trunk ganglion into sympathetic cardiac nerves which interact directly with SA and AV nodes (SA contracts faster, AV pause shorter).

Question 21

how does unidirectional flow happen?

Answer 21

because there is a difference in pressure between arteries and veins

Question 22

out of the aorta:

Answer 22

the arteries branch into smaller ones that go to specific organs

Question 23

what kind of pressure is the systemic system under?

Answer 23

high pressure (high in arteries, low in veins)

Question 24

what kind of pressure is the pulmonary circuit under?

Answer 24

it is short so low resistance and low pressure

Question 25

at rest blood comes out opf the heart:

Answer 25

and into organs in parallel (mostly stomach, kidneys, stomach, muscles)

Question 26

what happens in light exercise?

Answer 26

increased blood flow, heart rate, stroke volume, caardiac output

Question 27

with exercise what changes in blood flow to organs?

Answer 27

brain - same
heart - more
kidney - less
abdominal - less
skin - more (heat)
other - less
skeletal muscle - much more

Question 28

what is the systemic circuit made of?

Answer 28

a bunch of mini cricuits in parallel with one another

Question 29

how is MAP controlled during exercise?

Answer 29

increased cardiac output so total peripheral resistance needs to be reduced (MAP = CO x TPR)

Question 30

what is TPR?

Answer 30

total periperal resistance - resistance of all vessels in the body to blood movement.

Question 31

how is TPR changed in exercise?

Answer 31

it is increased in some vessels because some organs dont need as much blood

Question 32

what controls resistance and regional flow?

Answer 32

resistance vessels - arterioles

Question 33

what allows arterioles to control resistance?

Answer 33

surrounded by smooth muscle.

Question 34

what is the resistance formula?

Answer 34

r = 1/r4 = 1/(.5d) 4

Question 35

what is luminal radius?

Answer 35

the radius of the blood vessel

Question 36

how do you make resistance higher

Answer 36

make the diameter of the vessel smaller

Question 37

what is it called when veins get smaller or bigger?

Answer 37

vasoconstriction and vasodilation

Question 38

what is the rule of 16?

Answer 38

when you change the diameter by 2, the blood flow changes x 16

Question 39

what happens to blood flow when you double the diameter?

Answer 39

ml/min is x16

Question 40

what are the three things that control vascular resistance?

Answer 40

1. mechanical (response to force)
2. neural (vascular sympathetic nerves)
3. humoral (blood)

Question 41

what %of blood is in veins? why?

Answer 41

64%, extra blood is stored in veins

Question 42

pressure and volume arteries vs veins:

Answer 42

arteries - high pressure, low volume

veins - low pressure, high volume

Question 43

which is more complient?

Answer 43

veins - their shape is easily chnged due to the volume.

Question 44

what is the compliance formula?

Answer 44

change in volume/change in pressure

Question 45

where is most of the blood in the veins? why?

Answer 45

small veins/venules (they are most complient)

Question 46

what is survival value?

Answer 46

veins can quickly push more blood back to the heart for arteries when they loose blood to save the MAP from dropping.

Question 47

what does vascular compliance and gravity mean? How is this managed?

Answer 47

blood is at risk of pooling to distal parts.

• valves
• tone of surrounding tissue makes the veins less complient and therefore stops pooling.
• skeletal msucle contracting increases venous return

Question 48

how would low muscle tone impact someone in re blood?

Answer 48

they experience blood pooling and fainting because their muscle is not holding the structure of their veins so gravity pools the blood.

Question 49

why does exercise increase blood flow speed?

Answer 49

skeletal muscle contracting increases venous return to the heart back through the circuits.

Question 50

what is starling’s law of the heart?

Answer 50

the more blood put into the heart before contraction, the stronger the contraction will be.

Question 51

why is starling’s law of the heart true?

Answer 51

the more blood, the more the heart tissue stretches, the further the actin and myosin filaments are stretched from each other, so when they contract, they are pulled further making the contraction more significant.

Question 52

what happens to stroke volume and cardiac output when the baroreflex/tilt test is conducted?

Answer 52

they both descrease. There is less effects of gravity to combat.