Properties of special circulations

Question 1

Where is the arterial supply for the coronary arteries

Answer 1

Emerges out of the base of the aorta, after it exits the left ventricle. Blood collects in veins, drains into coronary sinus, delivering blood to the right atrium

Question 2

Describe the special requirements of coronary circulation

Answer 2

Needs a high basal supply of O2, 20x resting skeletal muscle

Increase O2 supply in proportion to oincreased demand/cardiac work

Question 3

Describe special structural features of coronary circulation

Answer 3

High capillary density, large SA for O2 transfer, reduces diffusion distance, diffusion time proportional to d^2, so O2 transport is fast

Question 4

How does cardiac muscle have shorter diffusion distance

Answer 4

High number of fibres and capillaries. Fibres are smaller than in skeletal muscle.

Question 5

Describe special functional features of blood circulation during normal activity

Answer 5

High blood flow - 10x the flow per weight of rest of body,
Relatively sparse sympathetic innervation
High nitric oxide released leading to vasodilation
High O2, extraction (75%), average in body is 25%

Question 6

Describe special functional features of circulations during increased demand

Answer 6

Coronary blood flow increases in proportion to demands
Production of vasodilation, adenosine K+, acidosis, outcompete relatively low sympathetic vasoconstriction
Circulating adrenaline dilates coronary vessels due to abundance of B2-adrenoceptors

Question 7

What causes a Bohr shift in haemoglobin saturation/amount of O2 in plasma during normal activity

Answer 7

Coronary sinus blood returning to right atrium from myocardial tissue has a higher CO2 content due to high capillary density, SA and small diffusion difference.

High CO2 and low pH shifts curve to the right, haemoglobin less affinity for oxygen, more oxygen unloaded. 75% unloaded

Question 8

What does increased oxygen requirement produce in terms of blood flow

Answer 8

Increase in blood flow. Myocardium metabolism generates metabolites to produce vasodilation, increasing blood flow (metabolic hyperaemia)

e.g. Adenosine, produced by ATP metabolism, and is released from cardiac myocytes, also increases in pCO2, H+, K+ levels.

Question 9

What are functional end arteries

Answer 9

Arteries that occur where only a single artery supplies blood to a particular area of tissue, whereas collateral arteries provide an alternate path for blood to get to a particular area of tissue, so it receives blood from more than one artery.

Question 10

What is angina caused by (and possible myocardial infarction)

Answer 10

Slow narrowing of an artery e.g. buildup of an atheroma

Question 11

What is necrosis

Answer 11

When tissue no longer contracts or conducts a depolarisation signal (cell death)

Question 12

What is thrombosis

Answer 12

Total occlusion of left anterior descending coronary artery - Ischemic tissue, acidosis, pain, impaired contractility, sympathetic activation, arrhythmias, cell death

Question 13

What is stable angina

Answer 13

Pain in the chest/breathlessness during exercise caused by metabolic hyperaemia

Question 14

How is systole different in a failing heart

Answer 14

No complete expulsion of the blood, so ESV exerts a pressure in the ventricle during diastole. This opposes cardiac circulation.

Question 15

How is diastole a window for cardiac blood flow

Answer 15

Aortic pressure remains high because of stretchiness of aorta, ventricular pressure decreases, allowing blood flow around arteries