Session 6.1 - Control of the Cardiovascular system Flashcards Preview

Semester 2 - CVS > Session 6.1 - Control of the Cardiovascular system > Flashcards

Flashcards in Session 6.1 - Control of the Cardiovascular system Deck (60)
Loading flashcards...
1
Q

What does the pumping action of the heart tend to do to vesicular volume?

A

Remove blood from viens, pumps blood to arteries

2
Q

What does a decrease in cardiac output tend to do to vesicular pressure

A

Increase venous pressure, decrease arterial pressure

3
Q

If total peripheral resistance falls, what will happens to vesicular pressure at a constant cardiac output?

A

Arterial pressure will fall, venous pressure will rise

4
Q

If total TPR rises, what happens to vesicular pressure if cardiac output constant?

A

Arterial pressure will rise, venous pressure will fall

5
Q

What is TPR inversely proportional to?

A

The body’s need for blood

6
Q

What is the effect of metabolic changes on CVS, such as eating a meal?

A

TPR will change and generate signals in the form of changes in arterial and venous pressure

7
Q

What is demand led pumping?

A

If the body needs more blood, the heart needs to pump more to meet the demand. This is expressed as changes in arterial and venous pressure

8
Q

What is cardiac output?

A

Stroke volume x heart rate

9
Q

Define stroke volume

A

The difference between end diastolic volume and end systolic volume. Amount of blood ejected at each heart beat

10
Q

What is end diastolic volume determined by?

A

The filling of the heart, as during diastole the ventricles fill as venous pressure drives blood into them

11
Q

What is end systolic volume?

A

The volume of blood in the left ventricle at the end of systole

12
Q

What is end disastolic volume?

A

The volume of blood in the left ventricle at the end of diastole (filling)

13
Q

To what pressure do the ventricles fill in diastole?

A

Until intraventricular pressure matches venous pressure `

14
Q

What is the relationship between venous pressure and heart filling?

A

High the venous pressure, the more the hear fills in diastole

15
Q

What is the relationship between venous pressure and ventricular volume known as?

A

Ventricular compliance curve

16
Q

Why will TPR resistance change if metabolism changes?

A

Due to vasodilator metabolites produced proportionally

17
Q

What are the three factors which determine how much the ventricles fill during diastole?

A

1) Venous pressure
2) Heart rate
3) Total peripheral resistance

18
Q

What is starlings law?

A

The more the heart fills, the harder it contracts (up to a limit).
There harder it contracts, the bigger the stroke volume

19
Q

Define pre load

A

The end diastolic stretch of the myocardion, determined by venous pressure

20
Q

Define after load

A

Fore necessary to expel blood into the arteries - determines what happens during systole

21
Q

What does a rise in venous pressure lead to?

A

A rise in stroke volume, due to increased ventricular filling

22
Q

What does the yellow slope on this graph indicate

A

INSERT GRAPH

Contractility of the ventricle

23
Q

What does the red circled point indicate?

A

The critical value - No further expansion possible as muscle can stretch no further, due to squashing/damage, Ventricles are at full capacity

24
Q

Define contractility

A

The ability of the cardiac muscle fiber to shorten, causing muscle contraction in response to an electrical impulse

25
Q

What does the green line indicate?

A

Sympathetic activity, causing an increase in contractility

26
Q

What is the term for the effect noradrenaline and adrenaline have on the heart, and what does it do?

A

Positive inotropic effect

Incrrease stroke volume at a given pre-loa and after-load

27
Q

What is force of contraction determined by?

A

End diastolic volume

Contractility

28
Q

What are the two things which determine how much ventricle empties depend on?

A

How hard the ventricles contract

How hard it is to eject blood

29
Q

How can difficulty of blood ejection be modified?

A

Depends mainly on TPR - The harder it is to ject blood, the higher the pressure rises in the arteries

30
Q

What factor does after-load determine?

A

The effect of a given force of contraction during systole

31
Q

What happens to systolic volume and stroke volume if arterial pressure falls?

A

End systolic volume falls and stroke volume rises

32
Q

What happens to stroke volume if venus pressure rises?

A

Stroke volume will rise

33
Q

What are baroreceptors?

A

Stretch receptors located in carotid sinus and aorta which sense arterial pressure and determine autonomic outflow to the heart

34
Q

Where do baroreceptors send signals?

A

To the medulla oblongata

35
Q

What happens if a baroreceptor detects a fall in arterial pressure

A

Increase heart rate

Increase contractility

36
Q

How would a baroreceptor increase heart rate?

A

By reducing parasympathetic activity

By increasing sympathetic activity

37
Q

How would a baroreceptor increase contractility?

A

By increasing sympathetic activity

38
Q

What is the bainbridge reflex?

A

Sensed in right atrium - A rise in venous pressure causes a rise in heart rate, via reduced parasympathetic activity

39
Q

Describe in general terms the role of the medulla of the brain in CVS reflexes

A

A collection of neurones which modify cardiac behabiour and circulation via the ANS

40
Q

How does the medulla oblangata change heart rate and contractility?

A

Heart rate - Alters the firing of the SAN to change heart rate
Contractilty - Uses sympathetic nervous system

41
Q

What does a rise in venous pressure cause?

A

Increase stroke volume
Increase heart rate
Increased cardiac output

42
Q

If arterial pressure falls, what happens to blood flow resistance in certain tissues?

A

The resistance to blood flow through certain vascular beds such as the skin and gut will rise

43
Q

What happens to venous capacitance if arterial pressure falls?

A

Venous capacitance will be reduced by veno-constriction

44
Q

What are the consequences of an increase in heart rate?

A

Cardiac output rises
Subsequent decrease in venous pressure
Reduced diastolic filling due to reduced venous pressure
Reduced stroke volume

45
Q

What happens to TPR if you are eating a meal?

A

Increased activity of gut leads to local vasodilation

Reduce TPR

46
Q

What does reduced gut TPR during a meal lead to?

A

Rise in venous pressure - increased CO
Fall in arterial pressure - Rise in hr, so CO
Venous pressure reduced by extra pumping of heart, and arterial pressure raised

47
Q

What happens in circulatory system in exercise?

A

Massively increased demand for blood

Muscle pumping forces extra blood back to the heart

48
Q

Why can’t exercise produce response in same way as gastric?

A

Becase speed and scale of changes in venous pressure tend to overload the CVS
Huge increase in venous pressure, massive decrease in arterial

49
Q

Why is the huge increase in venous pressure during exercise dangerous?

A

Tends to overfill the heart and pushes the ventricles onto the overloaded section of the starling curve. Risk of pulmonary oedema because the outputs of the right and left ventricle cannot be matched.

50
Q

What does the starling curve provide?

A

Matching stroke volume to right and left side of heart

51
Q

How does pulmonary oedema come about as a result of overfilled heart during exercise?

A

Left heart cannot respond to right due to increased venous return, so blood accumulates in the lungs. Water forced out, causing decreased lung function via oedema.

52
Q

How is overfilling of the ventricles prevented in exercise?

A

Increase in heart rate, which occurs as exercise begins. When venous pressure starts to rise, heart rate already high.

53
Q

What effect does standing up have on the CVS?

A

Blood pools in the superficial veins of the legs because of gravity, causing fall in central venous pressure

54
Q

What are the consequences of standing up and the subsequent decrease in central venous pressure

A

Central venous pressure falls, so cardiac output falls.
Subsequent decrease in arterial pressure
Fall detected by baroreceptors, triggering rise in heart rate.

55
Q

What are the three results of of a fall in arterial pressure detected by baroceptors on standing?

A

Rise in heart rate
Vaso constriction of skin and gut to increase TPR
Veno constriction to drive blood to heart

56
Q

What condition do older people develop which accentuates effects on blood pressure when standing up?

A

Postural hypotension

57
Q

What is the direct effect of haemorrhage?

A

Decreased venous pressure, causing fall in cardiac output

58
Q

What does the fall in cardiac output after haemorrhage due to decreased venous pressure cause?

A

Arterial blood pressure to fall, which is detected by baroreceptors.
Heart rate increases, as does TPR.

59
Q

What does the rise in heart rate and TPR as a result of haemorrhage cause to happen?

A

Further lower venous pressure - Rise of heart rate pumps blood out, TPR helps arterial pressure but lowers venous.
Thus, veno constriction must take place.

60
Q

Describe the effects of a long term increase in blood volume

A
  • Kidney controls blood volume
  • If blood volume increases for days > venous pressure increases
  • Increased cardiac output
  • Increased arterial pressure (hypertrophy of smooth muscle)
  • Increased TPR
  • Increased arterial pressure (new set value)
  • Hypertension (treatment: diuretic/vasodilator)