Special Circulations -- 9.1

Question 1

Describe the circulation of the lungs

Answer 1

Have two – pulmonary and bronchial.
Bronchial is part of systemic circulation for meeting the metabolic requirements of the lungs.
Pulmonary is blood supply to the alveoli for gas exchange.

Question 2

Define “supply driven”

Answer 2

Characteristic of the pulmonary circulation.

Must adapt in order to accommodate the entire cardiac output.

Question 3

What are the normal pressures in the pulmonary artery, pulmonary capillaries and pulmonary veins?

Answer 3

Pulmonary artery = 12-15 mmHg
Pulmonary capillaries = 9-12 mmHg
Pulmonary veins = 5 mmHg

Question 4

What are the flow resistance characteristics of the pulmonary circulation?

Answer 4

Has minimal flow resistance – operates at a low resistance, low pressure system

Question 5

Define colloid osmotic pressure

Answer 5

The osmotic pressure exerted by proteins in the blood plasma that pulls H20 into the circulatory system

Question 6

What is hypoxic pulmonary vasoconstriction?

Answer 6

Blood is directed away from areas where oxygen uptake is reduced.
Allows for efficient oxygenation.

Question 7

What does hypoxic pulmonary vasoconstriction help to maintain?

Answer 7

The optimal ventilation/perfusion ratio

Question 8

How is oxygenation made efficient?

Answer 8

Alveolar ventilation needs to be matched with perfusion.

Question 9

What is alveolar ventilation?

Answer 9

Air flow to the alveoli

Question 10

What is perfusion?

Answer 10

Blood flow

Question 11

What is hypoxia caused by?

Answer 11

A mismatch between ventilation and perfusion in the lungs.

Question 12

What can pulmonary arteries control?

Answer 12

The distribution of cardiac output over the lungs

Question 13

How does blood reach all areas of the lungs?

Answer 13

Gravity creates hydrostatic pressure in blood column, with a higher transmural pressure in the vessels at the bottom of the lungs.
This causes distention of blood vessels at the bottom of the lungs, increasing blood flow to these vessels.

Question 14

Define physiological shunt

Answer 14

The passing of blood through the lungs without it being properly oxygenated.

Question 15

When can a physiological shunt occur?

Answer 15

Cardiovascular and respiratory conditions

Question 16

What features give the pulmonary circulation low resistance?

Answer 16

– short, wide vessels
– lots of capillaries (many parallel elements)
– arterioles have relatively little smooth muscle

Question 17

What feature in lungs help promote efficient gas exchange?

Answer 17

High capillary density in alveolar wall
Short diffusion distance
Large SA and short distance lead to high O2 and CO2 capacity

Question 18

What does alveolar hypoxia cause?

Answer 18

Vasoconstriction of pulmonary vessels.

Question 19

What can chronic hypoxia cause?

Answer 19

Increases vasoconstriction which increases vascular resistance leading to chronic pulmonary hypertension. This increases the afterload on the RV which can cause right ventricular heart failure

Question 20

How is tissue fluid formed?

Answer 20

Hydrostatic pressure forces fluid out of the capillaries.

– tends to occur at arterial end of capillaries with the inward movement of fluid occurring at the venous end.

Question 21

What is ventilation perfusion matching?

Answer 21

The blood flow in the lungs is directed to areas which have a better ventilation/air supply from the alveoli to ensure that the majority of the blood becomes oxygenated

Question 22

What causes pulmonary oedema?

Answer 22

Increased capillary pressure cause more fluid to filter out of the capillaries.
Tends to be cause by L atrial pressure rising to 20-25 mmHg (mitral valve stenosis or LV failure) so left heart pumping is compromised.
Filtration > reabsorption

Question 23

What are the effects of pulmonary oedema and how can you treat it?

What is it affected by?

Answer 23

It impairs gas exchange.
Use diuretics to relieve symptoms and treat the underlying cause.
Posture affects oedema
– base of lungs when upright and throughout lung when lying down.

Question 24

What does alveolar hypoxia result in?

Answer 24

Vasoconstriction of pulmonary vessels to optimise gas exchange

Question 25

What is the effect of exercise on pulmonary blood flow?

Answer 25

Increased cardiac output –> small increase in pulmonary arterial pressure
Open apical capillaries –> increased O2 uptake by the lungs

Question 26

What is the oxygen demand to the heart dependent on?

Answer 26

Depends on how much metabolic work is done

Question 27

What does the amount of metabolic work of the heart depend on?

Answer 27

External work done

Efficiency

Question 28

Describe the external work done by the heart

Answer 28

Depends on the stroke volume and arterial pressure per heart beat

Question 29

Describe the differences of high efficiency and low efficiency of the heart

Answer 29

High efficiency – ventricle is pumping a stroke volume against a low arterial pressure
Low efficiency – the heart is pumping the same stroke volume against a higher arterial pressure

Question 30

When do the coronary arteries fill?

Answer 30

Coronary blood flow is exclusively diastolic as the coronary arteries are compressed during systole. Is especially seen in the left ventricle.

Question 31

How does the heart maintain a mean blood flow into the coroner arteries?

Answer 31

Has high blood flow in diastole to compensate for reduced flow in systole.

Question 32

How does blood flow into the coronary arteries change during an increased heart rate?

Answer 32

The length of diastole shortens, so the peak flow in the coronary circulation must increase quickly to maintain the necessary mean flow.

Question 33

When can problem with the coronary circulation become apparent?

Answer 33

During high heart rate

Question 34

How do blockages in the coronary arteries affect blood supply?

Answer 34

They will have a large effect as the CA have few anastomoses.
They are end arteries, so total blockage leads to ischaemia which leads to MI

Question 35

When are partial blockages of the coronary arteries seen?

Answer 35

Only during high heart rate as there is an increased O2 demand due to poorer blood supply. This ischaemia leads to angina upon exercise.

Question 36

How is blood flow controlled into the myocardium to the coronary arteries?

Answer 36

Local vasodilator metabolites.

Question 37

How important is the blood supply to the brain?

Answer 37

Very important – any reduction for a few seconds leads to syncope.
Brain damage or death can occur after 3-4 minutes.
Receives about 15% of the totla cardiac output
Interuptions e.g. stroke leads to neuronal death

Question 38

How is the high oxygen demand in the brain met?

Answer 38

High capillary density – large SA for gas exchange and small diffusion distance
High basal flow rate – 10 times higher than the body’s average rate
High O2 extraction – 35% above average for body

Question 39

What structures in the brain are most susceptible to hypoxia?

Answer 39

Neurones

Question 40

What structures in the brain ensure a good blood supply?

Answer 40

Anastomoses between basilar and internal carotid arteries

Known as the circle of Willis: if one artery is blocked, blood supply is not greatly affected

Question 41

What function does the brain have to ensure a good blood supply?

Answer 41

Brainstem regulates other circulations so brain circulation is sufficiently perfused.
Myogenic autoregulation
Metabolic factors

Question 42

What is myogenic auto regulation?

Answer 42

Cerebral resistance vessels respond to changes in transmural pressure.
Increased BP –> vasoconstriction
Decreased BP –> vasodilatation
Ensures cerebral blood flow stays constant
(fails below 50mmHg)

Question 43

What metabolic factors help to regulate cerebral blood flow?

Answer 43

The pCO2 
Increased pCO2 (hypercapnia) --> vasodilatation
Decreased pCO2 --> vasoconstriction

Question 44

What does panic hyperventilation cause?

Answer 44

Panic hyperventilation can cause hypocapnia and cerebral vasoconstriction leading to dizziness or fainting

Question 45

What substances cause dilation of cerebral arterioles?

Answer 45

Increased pCO2
Increased K+
Increased adenosine (powerful vasodilator)
Decreased O2

Question 46

What areas of the brain have the highest blood flow?

Answer 46

Areas with increased neuronal activity

Question 47

What can small alterations to cerebral blood flow cause?

Answer 47

Small alterations can have larger effects

• • headaches
• • other disturbances in cerebral function

Question 48

What vessels does blood flow though in the skin?

Answer 48

aterio-venous anastomoses

– blood flow through skin tends not to be nutritive

Question 49

What does the cutaneous circulation play a major role in?

Answer 49

Temperature regulation

– skin is the main heat dissipating surface

Question 50

What is a major controlled of heat loss through the skin?

Answer 50

Sympathetic nervous system
– controls the blood flow into the skin
Very little change occurs due to local metabolites other than mediators released from sweat glands

Question 51

What does a decrease in core temperature cause?

Answer 51

Increase tone in AVAs, decreasing blood flow to apical skin due to sympathetic innervation

Question 52

What does an increase in core temperature lead to?

Answer 52

Dilation of AVAs, low resistance shunt to venous plexus arises which is close to the surface and allows for the dissipation of heat.

Question 53

What happens to most skeletal muscle capillaries at rest?

Answer 53

They are shut off due to contraction of pre-capillary sphincters. About half are “shut off” to allow for increased recruitment during exercise

Question 54

What does the capillary density of skeletal muscle depend on?

Answer 54

Type of muscle – postural muscles have a higher capillary density

Question 55

What is a particular characteristic of skeletal muscle?

Answer 55

It has very high vascular tone which permits lots of vasodilatation
– Flow can increase > 20 times in active muscle

Question 56

How are increases in blood flow to skeletal muscle brought about?

Answer 56

Opening more capillaries by vasodilator nervous activity and local metabolites. These reduce tonic vasoconstrictor tone.
The increase in capillary number also lowers diffusion distance.

Question 57

What acts as vasodilators in skeletal muscle?

Answer 57

– increased [K+]
– increased osmolarity
– Inorganicphosphates – Adenosine
– increased [H+]
adrenaline acts on arterioles though beta2 receptors
(vasoconstriction is due to noradrenaline on alpha1 receptors)

Metabolites are the main vasodilators

Question 58

Why is blood flow through the coronary arteries important?

Answer 58

Need a high basal rate due to constant work undertaken by the heart.
Has to be able to increase to match the workload of the heart

Question 59

How is a high basal flow maintained in coronary endothelium?

Answer 59

Constant production of nitric oxide (NO) which is a vasodilator

Question 60

Why are coronary arteries prone to atheromas?

Answer 60

The are few arerio-arterial anastomoses as the coronary arteries are functional end arteries.
Sudden obstruction by a thrombus will cause a myocardial infarction

Question 61

What are artereovenous anastomoses?

Answer 61

Vessel between arterioles and venules bypassing capillaries which are specialised to allow for heat dissipation.
Are highly convoluted.
Can be known as glomus body.
Are innervated sympathetically.

Question 62

What can cause vasodilatation to promote heat loss in non-apical skin?

Answer 62

Sympathetic innervation of sweat glands by ACh can also produce bradykinin. This causes vasodilatation of capillaries for heat loss in non-apical skin.

Question 63

Describe cushings reflex

Answer 63

Rigid cranium does not allow for distension so haemmorhage and tumour lead to vasoconstriction of arteries, impairing blood flow.
Vasomotor control regions of the brain increase their sympathetic vasomotor activity (vasoconstriction) to increase arterial blood pressure therefore establishing sufficient cerebral blood flow

Question 64

What makes up the blood brain barrier?

Answer 64

Cerebral capillaries

Question 65

What does the blood brain barrier allow and not allow to dissuade across?

Answer 65

Allows lipid soluble molecules O2 and CO2 to diffuse across freely
Does not allow K+ and other catecholamines to diffuse across