Histopath - cardio

Question 1

Describe the pathogenesis of an atherosclerotic plaque

Answer 1

• ENDOTHELIAL injury –> endothelial dysfunction (increased permeability and adhesion)
• LDL enters intima and is oxidised
• MACROPHAGES enter intima + take up ox-LDL –> FOAM CELLS!
• Foam cells die –> necrotic core
• Attracts even more white cells
• VSMCs form fibrous cap

Question 2

3 main components of a plaque

Answer 2

• Lipid core - necrotic
• Fibrous cap with collagen and ECM
• Cells - VSMCs, foam cells,

Question 3

Which part of the aorta is more commonly affected by atherosclerosis - thoracic or abdominal?

Answer 3

ABdominal

Question 4

What kinda flow through vessels is atherogenic? What kinda flow protects against atherogenesis

Answer 4

Atherogenic = Turbulent, oscillatory shear stress
Protective = High laminar flow

Question 5

4 outcomes of atheromatous plaques?
i.e. what can happen to them eventually which has subsequent v bad results

Answer 5

1. Obstruction (70% occlusion –> stable angina)
2. Rupture (exposes pro-thrombotic contents)
3. Erode(exposes pro-thrombotic contents)
4. Haemorrhage into plaque

Question 6

RFs for atherosclerosis ? split them into 2 categories

Answer 6

Non-modifiable: age, gender, family Hx
Modifiable: cholesterol, HTN, obesity, T2DM, smoking

Question 7

CAUSE OF STABLE ANGINA?

Answer 7

Atheromatous plaque causes 70% occlusion of a vessel, + myocyte demand exceeds supply.

This level of occlusion cannot be reversed by vasodilatation

Question 8

3 types of angina

Answer 8

stable
unstable
Prinzmetal

Question 9

Describe the pathogenesis of myocardial infarction

Answer 9

Myocyte necrosis due to acute ischemia as a result of a sudden event - eg plaque rupture + thrombosis or vasospasm

Question 10

At what point does myocyte schema –> myocyte necrosis

Answer 10

after 20-40 mins of ischemia

Question 11

How can psychological stress –> MI?

Answer 11

Adrenaline release –> vasoconstriction –> physical stress on atheromatous plaque –> plaque rupture etc etc

Question 12

Does HF always come after and MI?

Answer 12

No!
Myocardial ischemia for 1 minute leads to reduced myocyte contractility –> HF
However, myocytes don’t die until >20 mins of ischemia

Thus HF can precede myocardial infarction

Question 13

3 most common complications of Mi

Answer 13

• Contractile dysfunction (–> shock)
• Arrhythmia
• Cardiac rupture of ventricular wall(–> haemopericardium)

Question 14

A patient develops mitral regurgitation after an MI. How has this happened?

Answer 14

Papillary muscle dysfunction/necrosis/rupture due to LV infarct

Question 15

Mean time post-MI for ventricular wall rupture?

Answer 15

4-5 days

Question 16

2 Most commonly affected arteries in MI?

Answer 16

LAD
RCA

Question 17

Mean time post-MI for arrhythmia

Answer 17

within 24 hours

Question 18

Mean time post-MI for ventricular aneurysm?

Answer 18

> 4 weeks

Question 19

Mean time post-MI for pericarditis?

Answer 19

2-4 days

Question 20

Pt develops chest pain relieved on leaning forward, and fevers, 2 months after admission for MI?

Answer 20

Dresslers syndrome

Question 21

Histological findings of MI after 4 hours?

Answer 21

Normal histology

Question 22

Histological findings of MI after 23 hours?

Answer 22

Loss of nuclei, necrotic cell death

Question 23

Histological findings of MI after 3 days

Answer 23

Infiltration of neutrophils, then macrophages

Question 24

Histological findings of MI after 10 days

Answer 24

NEW BLOOD VESSELS (angioblasts)
Collagen synthesis

Question 25

Histological findings of MI after 3 weeks

Answer 25

Decellularising scar tissue

Question 26

3 main pathological features of heart failure

Answer 26

1. dilated LV
2. Thin and scarred heart walls
3. Replacement of myocytes with scar tissue

Question 27

3 types of cardiomyopathy

Answer 27

Dilated
Hypertrophic
Restrictive

Question 28

Causes of DCM

Answer 28

Idiopathic
Alcohol
Endocrine - hypo/hyperthryoid, DM
Viral myocarditis

Question 29

Causes of restrictive cardiomyopathy

Answer 29

Sarcoidosis
Amyloidosis

Question 30

What does the heart look like in restrictive cardiomyopathy?

Answer 30

Overall heart size = normal
Atria = large

Question 31

HCM - what is the most common cause? how is it inherited?

Answer 31

Autosomal dominant inheritance of a mutation in the
BETA MYOSIN HEAVY CHAIN gene

Question 32

what is HOCM

Answer 32

Septal hypertrophy –> outflow obstruction

Question 33

2 Most commonly affected valve in rheumatic heart disesase

Answer 33

1. mitral
2. aortic

Question 34

List causes of aortic regurgitation (n.b. there are 3 categories)

Answer 34

1. dilatation (Marfan’s, Ank Spon, dissecting aneurysm)
2. destruction (endocarditis)
3. rigidity (rheumatic fever, degeneration)

Question 35

Most common cause of aortic stenosis

Answer 35

calcification (old age)

Question 36

Aneurysms - name 2 types

Answer 36

True = involves all wall layers
False = extravascular haematoma

Question 37

3 causes of aneurysms

Answer 37

Congenital (Marfan’s)
Atherosclerosis
HTN

Question 38

Major criteria of acute rheumatic fever

Answer 38

Carditis
Arthritis
Sydenham’s chorea
Erythema marginatum
Subcutaneous nodules

Question 39

3 histological features of acute rheumatic fever

Answer 39

Vegetations
Aschoff bodies
Anitschkov myocytes

Question 40

Cause of acute rheumatic fever

Answer 40

Group A strep