Cardiovascular System

Question 1

the three main arteries of the heart which are affected by atherosclerosis

Answer 1

• right coronary artery
• LAD artery
• left circumflex

Question 2

Risk factors for atherosclerosis

Answer 2

• age (strongest predictor)
• tobacco smoking
• high serum cholesterol
• obesity (increased lipid content of plaques -> increased inflammation)
• diabetes (hyper and hypoglycaemia affect endothelial function)
• hypertension- increased BP can damage endothelium
• family history of coronary artery disease

Question 3

What is atherosclerosis? what are the main problems which can occur as a result of it?

Answer 3

atherosclerosis= condition where plaque builds up in arteries.

• Plaque may occlude vessel lumen
• Plaque can rupture, leading to thrombus formation, which disrupts blood flow to myocardium by blocking the artery and can possibly cause death

Question 4

where are atherosclerotic plaques most likely to be found?

Answer 4

in peripheral and coronary arteries

Question 5

• structure of atherosclerotic plaques

- relevance of the thickness of the cap

Answer 5

fibrous cap covering a mixture of connective tissue and lipids, with a necrotic core of dead cells
- the thicker the fibrous cap, the more stable the plaque; thin plaques are more vulnerable to rupture

Question 6

Describe process of atherosclerotic plaque formation (7)

Answer 6

1- irritant (smoking/hypertension/hyperlipidemia) -> endothelial dysfunction
2- Increased LDL deposits in the tunica intima leads to the activation of endothelial cells. Endothelial cells express adhesion molecules for white blood cells
3- White blood cells adhere to activated endothelial cells -> allows monocytes and T helper cells to move into the tunica intima layer of blood vessels
4-Monocytes and T helper cells become macrophages which take up oxidised LDLs and become foam cells
5-Foam Cells promote migration of smooth muscle cells from tunica media to intima & smooth muscle proliferation
6- increased smc proliferation -> increased collagen production -> hardening of plaque
7- foam cell dies, unleashing lipid content -> drives growth of plaque (apoptosis)

Question 7

what does an intermediate atherosclerotic (stage 2) lesion contain?

Answer 7

• lipid-laden macrophages (foam cells)
• vascular smooth muscle cells
• T-lymphocytes
• Adhesion and aggregation of platelets to vessel wall
• isolated pools of extracellular lipid

Question 8

What is an advanced atherosclerotic plaque (stage 3) and what is it composed of?

Answer 8

Advanced atherosclerotic plaque= fibrous plaque.

• Covered by dense fibrous cap made of extracellular matrix proteins including collagen and elastin- caps may become calcified.
• Inside of plaque contains smooth muscle cells, macrophages, foam cells and T lymphocytes

Question 9

Treatment options for coronary artery plaque

Answer 9

1- PCI- e.g. insertion of a stent. Normally rug eluting stents e.g. taxol or sirolimus
2- Drugs;
- aspirin
- clopidogrel & ticagreolor (inhibit receptor on platelets)
- Statins- inhibit rate-limiting enzyme (HMG CoA reductase) of cholesterol production pathway, thus decreasing cholesterol synthesis

Question 10

Four stages of atherosclerosis progression

Answer 10

1- Fatty streaks
2- Intermediate lesion
3- Advanced Lesion/ Fibrous plaque
4- Plaque rupture

Question 11

fatty streaks (stage 1) consist of

Answer 11

lipid laden macrophages and T lymphocytes within the tunica intima

Question 12

What happens during plaque rupture (stage 4)?

Answer 12

• fibrous cap has to be resorbed and redeposited in order to be maintained -> if balance shifts in favour of inflammatory conditions (increased enzyme activity), cap becomes weak and plaque ruptures;
• Basement membrane, collagen and necrotic tissue exposure as well as haemorrhage of vessels
• thrombus (clot) formation and vessel occlusion

Question 13

main 5 risk factors for acute coronary syndromes

Answer 13

• smoking
• hypertension
• diabetes
• hypercholesterolaemia
• positive family history

Question 14

other risk factors for acute coronary syndromes

Answer 14

• chronic kidney disease
• peripheral arterial disease
• inflammatory conditions e.g. rheumatoid arthritis
• ethnicity
• stress

Question 15

3 clinical features of unstable angina

Answer 15

• cardiac chest pain at rest
• cardiac chest pain in a crescendo pattern (pain gets worse over time)
• new onset angina (patient develops angina quickly without warning)

Question 16

difference between STEMI and NSTEMI

Answer 16

• STEMI= ST elevation MI; complete and sustained occlusion- the resulting ischaemia results in loss of a whole territory of heart muscle (and thus significant myocardial necrosis)
• NSTEMI= temporary occlusion which has clear, or a stenosis but not complete occlusion

Question 17

STEMI diagnosed using

Answer 17

ECG- characteristic features on ECG

Question 18

Define angina.

Answer 18

Angina is chest pain symptomatic of O2 supply/demand mismatch to the heart experienced on exertion.

Question 19

What is the most common cause of angina?

Answer 19

Narrowing of the coronary arteries due to atherosclerosis.

Question 20

Give 5 possible causes of angina.

Answer 20

1. Narrowed coronary artery = impairment of blood flow e.g. atherosclerosis.
2. Increased distal resistance = LV hypertrophy.
3. Reduced O2 carrying capacity e.g. anaemia.
4. Coronary artery spasm.
5. Thrombosis.

Question 21

Give 5 modifiable risk factors for angina.

Answer 21

1. Narrowed coronary artery = impairment of blood flow e.g. atherosclerosis.
2. Increased distal resistance = LV hypertrophy.
3. Reduced O2 carrying capacity e.g. anaemia.
4. Coronary artery spasm.
5. Thrombosis.

Question 22

Give 5 modifiable risk factors for angina.

Answer 22

1. Smoking.
2. Diabetes.
3. High cholesterol (LDL).
4. Obesity/sedentary lifestyle.
5. Hypertension.

Question 23

Briefly describe the pathophysiology of angina that results from atherosclerosis.

Answer 23

On exertion there is increased O2 demand. Coronary blood flow is obstructed by an atherosclerotic plaque -> myocardial ischaemia -> angina.

Question 24

Briefly describe the pathophysiology of angina that results from anaemia.

Answer 24

On exertion there is increased O2 demand. In someone with anaemia there is reduced O2 transport -> myocardial ischaemia -> angina.

Question 25

How do blood vessels try and compensate for increased myocardial demand during exercise.

Answer 25

When myocardial demand increases e.g. during exercise, microvascular resistance drops and flow increases!

Question 26

Why are blood vessels unable to compensate for increased myocardial demand in someone with CV disease?

Answer 26

In CV disease, epicardial resistance is high meaning microvascular resistance has to fall at rest to supply myocardial demand at rest. When this person exercises, the microvascular resistance can’t drop anymore and flow can’t increase to meet metabolic demand = angina!

Question 27

How would you describe the chest pain in angina?

Answer 27

Crushing central chest pain. Heavy and tight. The patient will often make a fist shape to describe the pain.

Question 28

What investigations might you do in someone you suspect to have angina?

Answer 28

1. ECG - usually normal, there are no markers of angina.
2. Echocardiography.
3. CT angiography - has a high NPV and is good at excluding the disease.
4. Exercise tolerance test - induces ischaemia.
5. Invasive angiogram - tells you FFR (pressure gradient across stenosis).

Question 29

A young, healthy, female patient presents to you with what appears to be the signs and symptoms of angina. Would it be good to do CT angiography on this patient?

Answer 29

Yes. CT angiography has a high NPV and so is ideal for excluding CAD in
younger, low risk individuals.

Question 30

Describe the primary prevention of angina.

Answer 30

1. Risk factor modification.

2. Low dose aspirin.

Question 31

Describe the secondary prevention of angina.

Answer 31

1. Risk factor modification.
2. Pharmacological therapies for symptom relief and to reduce the risk of CV events.
3. Interventional therapies e.g. PCI.

Question 32

Name 3 symptom relieving pharmacological therapies that might be used in someone with angina.

Answer 32

1. Beta blockers.
2. Nitrates e.g. GTN spray.
3. Calcium channel blockers.

Question 33

Describe the action of beta blockers.

Answer 33

Beta blockers are beta 1 specific. They antagonise sympathetic activation and so are negatively chronotropic and inotropic. Myocardial work is reduced and so is myocardial demand = symptom relief.

Question 34

Give 3 side effects of beta blockers.

Answer 34

1. Bradycardia.
2. Tiredness.
3. Erectile dysfunction.
4. Cold peripheries.

Question 35

When might beta blockers be contraindicated?

Answer 35

They might be contraindicated in someone with asthma or in someone who is bradycardic.

Question 36

Describe the action of nitrates.

Answer 36

Nitrates e.g. GTN spray are venodilators. Venodilators -> reduced venous return -> reduced pre-load -> reduced myocardial work and myocardial demand.

Question 37

Describe the action of Ca2+ channel blockers.

Answer 37

Ca2+ blockers are arterodilators -> reduced BP -> reduced afterload -> reduced myocardial demand.

Question 38

Name 2 drugs that might be used in someone with angina or in someone at risk of angina to improve prognosis.

Answer 38

1. Aspirin.

2. Statins.

Question 39

How does aspirin work?

Answer 39

Aspirin irreversibly inhibits COX. You get reduced TXA2 synthesis and so platelet aggregation is reduced.
Caution: Gastric ulcers!

Question 40

What are statins used for?

Answer 40

They reduce the amount of LDL in the blood.

Question 41

What is revascularisation?

Answer 41

Revascularisation might be used in someone with angina. It restores the patent coronary artery and increases blood flow.

Question 42

Name 2 types of revascularisation.

Answer 42

1. PCI.

2. CABG.

Question 43

Give 2 advantages and 1 disadvantage of PCI.

Answer 43

1. Less invasive.
2. Convenient and acceptable.
3. High risk of restenosis.

Question 44

Give 1 advantage and 2 disadvantages of CABG.

Answer 44

1. Good prognosis after surgery.
2. Very invasive.
3. Long recovery time.

Question 45

What are acute coronary syndromes (ACS)?

Answer 45

ACS encompasses a spectrum of acute cardiac conditions including unstable angina, NSTEMI and STEMI.

Question 46

What is the common cause of ACS?

Answer 46

Rupture of an atherosclerotic plaque and subsequent arterial thrombosis.

Question 47

What are uncommon causes of ACS?

Answer 47

1. Coronary vasospasm.
2. Drug abuse.
3. Coronary artery dissection.

Question 48

Briefly describe the pathophysiology of ACS due to atherosclerotic plaque rupture?

Answer 48

Atherosclerosis -> plaque rupture -> platelet aggregation -> thrombosis formation -> ischaemia and infarction -> necrosis of cells -> permanent heart muscle damage and ACS.

Question 49

Why do you see increased serum troponin in NSTEMI and STEMI?

Answer 49

Troponin is a sensitive marker for cardiac muscle injury and so is significantly raised in reflection to this.

Question 50

Give 6 signs/symptoms of MI.

Answer 50

1. Unremitting and usually severe central cardiac chest pain.
2. Pain occurs at rest.
3. Sweating
4. Breathlessness.
5. Nausea/vomiting.
6. 1/3 occur in bed at night.

Question 51

Give 5 potential complications of MI.

Answer 51

1. Heart failure.
2. Rupture of infarcted ventricle.
3. Rupture of interventricular septum.
4. Mitral regurgitation.
5. Arrhythmias.
6. Heart block.
7. Pericarditis.

Question 52

What investigations would you do on someone you suspect to have ACS?

Answer 52

1. ECG.
2. Blood tests; look at serum troponin.
3. Coronary angiography.
4. Cardiac monitoring for arrhythmias.

Question 53

What might the ECG of someone with NSTEMI show?

Answer 53

The ECG from someone with NSTEMI may be normal or might show T wave inversion and ST depression. There also might be R wave regression, ST elevation and biphasic T wave in lead V3.

Question 54

What might the ECG of someone with STEMI show?

Answer 54

The ECG from someone with STEMI will show ST elevation in the anterolateral leads. After a few hours, T waves invert and deep, broad, pathological Q waves develop.

Question 55

What would the serum troponin level be like in someone with NSTEMI/STEMI?

Answer 55

Significantly raised.