4. Cardiovascular regulation

Question 1

What is heart failure?

Answer 1

Develops when the heart is unable to maintain a normal cardiac output at normal filling pressures
- leads to under filling of the arterial circulation

Question 2

What does a rise in the LV pressure curve mean?

Answer 2

Pressure rising during systolic phase

Question 3

What is end diastolic volume?

Answer 3

Maximum amount of blood either a left or right ventricle can hold

Question 4

What is end systolic volume?

Answer 4

Blood left at the end of contraction - systolic phase

Question 5

What is cardiac output?

Answer 5

Volume of blood pumped into the aorta per unit time

Question 6

What is venous return?

Answer 6

volume of blood that comes back to the right atrium

Question 7

What is the relationship between venous return + cardiac output in a normal heart?

Answer 7

They should be equal

Question 8

What is the parasympathetic influence on heart rate?

Answer 8

Vagus nerve (parasympathetic) - innervates SA and AV nodes; small amount to the atria
- at rest predominates
- decreasing vagal tone
ACh release slows HR (muscarinic receptor antagonists increase HR)

Question 9

What is the sympathetic influence on heart rate?

Answer 9

Innervate SA and AV, atria and ventricles

• increasing sympathetic tone
• NAd release accelerates heart rate (𝛃-adrenoreceptor anagonists slow HR)

Question 10

What is the parasympathetic influence on regulation of heart rate?

Answer 10

Increases AV refractory period

Decreases AV conduction

Question 11

What is the sympathetic influence on regulation of heart rate?

Answer 11

Decreases Av refractory period

Increases AV conduction

Question 12

What is the Frank Starling mechanism?

Answer 12

Energy of contraction of a muscle fibre is proportional to initial fibre length at rest
- filling pressure can give us a good indication of what is happening in terms of stretch of the myocardium

Question 13

What are some factors affecting venous return?

Answer 13

1. Displacement of blood from the veins (sympathetic vasoconstrictor fibres) - increases venous return and stroke volume
2. Skeletal muscle activity in lower extremities
3. Thoracic pump - On inspiration, intrathoracic pressure falls; leads to reduction in central venous pressure

Question 14

What is preload?

Answer 14

Filling pressure of the heart

- determined in vivo by venous volume and rate of venous return (determine central venous pressure)

Question 15

What is afterload?

Answer 15

Pressure against which the heart ejects (resistance blood has to overcome to get blood moving)
- determined in vivo by the peripheral resistance which is proportional to arterial pressure

Question 16

Do cardiac outputs need to be equal?

Answer 16

Right and left cardiac outputs do need to be equal under normal conditions
- can vary due to physiological and pathological factors

Question 17

What is hypertension?

Answer 17

High blood pressure, heart needs to work harder to overcome the resistance
- sympathetic system causes an inotropic effect

Question 18

What effect does stimulation rate have on stroke work and end diastolic pressure?

Answer 18

As sympathetic nerve stimulation is increased:

• Stroke work = increased
• end diastolic pressure = decreases

Question 19

How do we increase stroke work?

Answer 19

Intrinsic regulation:
- movement along a Starling curve
- change in muscle filling pressure and resting length
Extrinsic regulation:
- movement from one starling curve to another due to sympathetic stimulation (improves contractibility without changing filling pressure)

Question 20

How is positive inotropism achieved?

Answer 20

Increased contractility at constant filling pressure

Question 21

What effect does sympathetic stimulation have on ventricular contraction and relaxation?

Answer 21

Increases in:

1. Rate of force development
2. Rate of relaxation
3. Maximal force developed

Question 22

What is perfusion?

Answer 22

Flow of blood per unit of volume tissue

- energy generated in the arterial system by the aorta

Question 23

What is perfusion pressure?

Answer 23

Controlled variable in the circulation

- provides the energy for perfusion

Question 24

What is circulatory shock?

Answer 24

Failure to achieve adequate perfusion pressures

• results in hypoxia = impaired metabolism = necrosis
• severe haemorrage

Question 25

What is the result of excessive perfusion pressure?

Answer 25

Results in capillary damage, endothelial injury and fluid exudation
- can happen in some cases of heart failure

Question 26

What is systemic arterial pressure the major determinant of?

Answer 26

Tissue perfusion pressure

Question 27

How is blood pressure regulated short term?

Answer 27

Baroreceptor regulation

- autonomic nervous system

Question 28

What is a baroreceptor?

Answer 28

Mechanoreceptors located in the carotid sinus and aortic arch
- sense pressure changes in the tension of the arterial wall

Question 29

How is blood pressure regulated long term?

Answer 29

Control of fluid volume

• vasopressin
• renin-angiotensin-aldosterone system

Question 30

What is systolic arterial pressure?

Answer 30

SAP = peak pressure in the arteries when the left ventricle is ejecting blood during systole

Question 31

What is diastolic arterial pressure?

Answer 31

DAP = residual pressure in the arteries when the left ventricle is filling during diastole

Question 32

What is pulse pressure?

Answer 32

Difference between SAP + DAP

Question 33

How long are diastole and systole?

Answer 33

Diastole = 2/3 of the time of the cardiac cycle 
Systole = 1/3 of the time of the cardiac cycle

Question 34

What is mean arterial pressure (MAP)?

Answer 34

Mean of arterial pressure but its not halfway between the two because diastole lasts 2x as long as systole

Question 35

How are flow, driving force and resistance linked?

Answer 35

Flow = driving force/resistance

Cardiac output = arterial pressure/total peripheral resistance

Question 36

How do MAP and CO link?

Answer 36

MAP = (HRxSV) x TPR

Question 37

What does long term regulation of blood pressure involve?

Answer 37

Body fluid balance

Question 38

What does effective regulation of MAP require?

Answer 38

Sensors (ability to monitor pressure)
Integrating system (assess correctness of pressure)
Effectors (mechanisms to return pressure to required level)

Question 39

Describe the structure of a baroreceptor

Answer 39

Non-encapsulated nerve endings in adventitial layer of arteries = aortic arch and carotid sinus
Central axons terminate in medulla oblongata
- serve as mechanoreceptors - increase firing in response to distension

Question 40

How does BP affect the firing rate of baroreceptors?

Answer 40

↑ BP = ↑ firing rate

↓ BP = ↓ firing rate

Question 41

Describe the baroreceptor reflex

Answer 41

Acute rise in BP = Increased baroreceptor discharge in the brainstem (medulla oblongata) which results in either:

• increased vagal output, ↓ heart rate and blood pressure
• decreased sympathetic output, ↓ contracitility, heart rate and arteriolar tone, and decrease blood pressure

Question 42

What does the renin-angiotensin-aldosterone axis provide?

Answer 42

Immediate, potent control of BP via angiotensin II

Slower onset, prolonged regulation of BP via volume control (aldosterone ± vasopressin)

Question 43

What other receptors contribute to cardiovascular homeostasis by eliciting reflexes?

Answer 43

Atrial receptors in walls of atria act as volume receptors

Question 44

What mechanisms are used to decrease blood volume?

Answer 44

Inhibit sympathetic vasoconstrictor pathways to kidneys leading to diuresis
Reflex inhibition of ADH/vasopressin from posterior pituitary
As a result:
- ↓ central venous pressure
- ↓ stroke volume
- ↓ cardiac output
- ↓ arterial pressure

Question 45

Describe the role of renin in haemorrhage

Answer 45

1. Renin release from juxtaglomerular apparatus
2. Production of angiotensin II
3. Constricts renal vasculature and causes secretion of aldosterone from adrenal cortex
4. Urine volume falls/retention of Na+ and water
   - resulting in an increase in blood volume