CVS 8 Special Circulations

Question 1

What are the main features of the pulmonary circulation?

Answer 1

Pulmonary which accepts entire cardiac output and works with low resistance due to short, wide vessels and lots of capillaries connected in parallel (low resistance) and arterioles with little smooth muscle. Low resistance means runs under low pressure

Question 2

What two circulations do the lungs have?

Answer 2

pulmonary and bronchial

Question 3

What does the bronchial circulation do?

Answer 3

meets metabolic requirements of lungs

Question 4

What is the mean pressure in the pulmonary artery?

Answer 4

12-15mmHg

Question 5

What is the mean pressure in the pulmonary capillaries?

Answer 5

9-12mmHg

Question 6

What is the mean pressure in the pulmonary veins?

Answer 6

5mmHg

Question 7

What is the cardiac output at rest?

Answer 7

5l/min

Question 8

What us the max cardiac output in a non-athlete?

Answer 8

20-25l/min

Question 9

What is the pressure in the right atrium?

Answer 9

0-8mmHg

Question 10

What is the pressure in the left atrium?

Answer 10

1-10mmHg

Question 11

What are the pressures in the left ventricle?

Answer 11

Systolic- 100-140mmHg

Diastolic-1-10mmHg

Question 12

What are the pressures in the right ventricle?

Answer 12

Systolic- 15-30mmHg

Diastolic-0-8mmHg

Question 13

What are the pressuresin the aorta?

Answer 13

100-140mmHg

60-90mmHg

Question 14

What are the pressures in the pulmonary artery?

Answer 14

15-30mmHg

4-12mmHg

Question 15

How are the lungs adapted to promote efficient gas exchange?

Answer 15

High density of capillaries in alveolar wall
Short diffusion distance (combined endothelium and epithelium 0.3um)
large surface area

Question 16

The rate of what two processes must be matched for efficient oxygenation?

Answer 16

ventilation and perfusion

Question 17

What is the optimal ventilation/perfusion ratio?

Answer 17

0.8

Question 18

How do the lungs maintain the optimal ventilation-perfusion ratio?

Answer 18

diverting blood from alveoli that arent well ventilated as alveolar hypoxia results in vasoconstriction of pulmonary vessels ensuring perfusion matches ventilation

Question 19

When can chronic hypoxia occur?

Answer 19

at altitude and as a consequence of lung disease like emphysema

Question 20

What can chronic hypoxic vasoconstriction cause and how?

Answer 20

Right ventricular failure
chronic increase in vascular resistance giving chronic pulmonary hypertension
This gives high afterload on right ventricle leading to failure

Question 21

How does being upright (orthostasis) affect hydrostatic pressure in different areas of the lungs?

Answer 21

Greater hydrostatic pressure in the vessels in lower lung, these are distended by the higher hydroststic pressure due to gravity, while vessels in upper part collapse in diastole

Question 22

How does exercise effect pulmonary blood flow?

Answer 22

Increased cardiac output
Small increase in pulmonary arterial pressure
opens apical capillaries
increased O2 uptake by lungs
As blood flow increases, capillary transit time reduced from 1 to as little as 0.3s without compromising gas exchange

Question 23

What pushes fluid out of capillaries?

Answer 23

Hydrostatic pressure

Question 24

What draws fluid back into capillaries?

Answer 24

oncotic pressure

Question 25

What pressure has the highest effect on capillary hydrostatic pressure? What does this mean for pulmonary system?

Answer 25

Venous.

Low venous pressure so only a little fluid leaves capillaries

Question 26

Where does pulmonary oedema occur and what does it do?

Answer 26

Impairs gas exchange
Mainly at base of lungs when standing
Throughout when lying down

Question 27

What can happen to left atrium if there is pulmonary oedema?

Answer 27

If pressure rises to 20-25mmHg can get mitral valve stenosis and left ventricular failure

Question 28

How would pulmonary oedema be treated?

Answer 28

Use duiretics to relieve symptoms and treat underlying cause

Question 29

How much(relative) cardiac output does the brain recieve and whats its relative mass?

Answer 29

15% CO

accounts for 2% of body mass

Question 30

How does the cerebral circulation meet the high demand for O2?

Answer 30

High capillary density (large SA, reduced diffusion dist)
High basal flow rate
High O2 extraction

Question 31

Why is O2 supply to brain important?

Answer 31

Neurones very sensitive to hypoxia
Loss of consciousness after a few seconds of cerebral ischaemia
Irreversible damage to neurines in ~4mins
stroke causing neuronal death

Question 32

How is a secure blood supply to brain ensured structurally?

Answer 32

Anastomoses between basilar and internal carotid arteries

Question 33

How is a secure blood supply to brain ensured functionally?

Answer 33

Brainstem regulates other circulations
Myogenic autoregulation maintains perfusion during hypotension (vasoconstriction and vasodilation)
metabolic factors control blood flow

Question 34

At what blood pressure can myogenic autoregulation no longer maintain cerebral blood flow?

Answer 34

50mmHg

Question 35

How does pCO2 affect cerebral arteries?

Answer 35

Very sensitive to it
Hypercapnia- Inc pO2-vasodilatation
Hypocapnia- Dec pO2- vasoconstriction

Question 36

What happens when someone panic hyperventilates?

Answer 36

They get hypocapnia (decreased pCO2) so cerebral vasoconstriction leading to dizziness or fainting

Question 37

Which areas of brain will get increased blood flow?

Answer 37

active areas as they make more CO2 and metabolites like adenosine which is a very powerful dilator

Question 38

What is cushing’s reflex?

Answer 38

(Rigid cranium protects brain but doesn’t allow volume for expansion
Increases in intracranial pressure impair cerebral blood flow and can cause tumour and haemhorrage)
Impaired blood flow to vasomotor control regions of brainstem increase sympathetic vasomotor activity

Question 39

What can and can’t diffuse freely through the blood brain barrier and why?

Answer 39

Lipid soluble molecules like O2 and CO2 diffuse freely
Lipid Insoluble solutes such as K+ and catecholamines cant diffues freely as endothelial cells in capillaries have tight junctions

Question 40

Where do left and right coronary arteries arise from?

Answer 40

Aortic sinuses

Question 41

Describe the relationship between the mechanical work and coronary blood flow of the myocardium

Answer 41

Almost linear until very high demand where there is an increase in oxygen extracted

Question 42

How many fold must O2 supply to the heart increase by to cope with high demand?

Answer 42

5

Question 43

How many of the capillaries in skeletal muscle are perfused at any one time?

Answer 43

half

Question 44

How is cardiac muscle adapted for oxygen delivery?

Answer 44

High capillary density and continuous NO production by coronary endothelium to maintain high basal flow

Question 45

Describe the consequences of partial or total occlusion of coronary arteries?

Answer 45

Coronary arteries are functional end arteries and prone to atheroma.
Narrowed coronary arteries lead to angina on exercise due to increased demand. Stress and cold can also cause sympathetic coronary vasoconstriction and angina
Sudden occlusion by thrombus causes MI

Question 46

What does most of the cutaneous circulation flow through rather than capillaries?

Answer 46

Arterio-venous anastomoses AVA

Question 47

What is blood flow to skin used for?

Answer 47

Most isn’t nutritive, has special role in temperature regulation being body’s main heat dissipating surface

Question 48

What happens to cutaneous circulation when core temperature decreases?

Answer 48

Sympathetic innervation which causes increased tone in AVAs decreasing blood flow to apical skin

Question 49

What happens to cutaneous circulation when core temperature increases?

Answer 49

Less vasomotor drive so AVAs dilate and there’s a low resistance shunt of blood to the venous plexus which is close to surface and allows dissipation of heat

Question 50

What shuts off capillaries in skeletal muscle?

Answer 50

Pre-capillary sphincters

Question 51

How is blood flow increased in skeletal muscle?

Answer 51

Mainly by opening up more capillaries via vasodilator nervous activity and local metabolites that reduce sympathetic vasoconstrictor tone

Question 52

By how many fold can flow to skeletal muscle increase?

Answer 52

20