Histo: Vascular and Cardiac Pathology

Question 1

What is atherosclerosis?

Answer 1

A disease characterised by atheromatous deposits and fibrosis of the inner layer (tunica intima) of arteries

Question 2

List some risk factors for atherosclerosis.

Answer 2

• Age
• Sex
• Genetics (familial hypercholesterolaemia)
• Hyperlipidaemia
• Hypertension
• Smoking
• Diabetes mellitus
• Obesity

RFs have multiplicative effect

Question 3

Outline the pathogenesis of atherosclerosis.

Answer 3

1. Endothelial injury causes accumulation of LDL
2. LDL enters intima and is trapped in sub-intimal space
3. LDL is converted into modified and oxidised LDL causing inflammation
4. Macrophages take up ox/modLDL via scavenger receptors and become foam cells
5. Apoptosis of foam cells causes inflammation and cholesterol core of plaque
6. Increase in adhesion molecules on endothelium due to inflammation results in more macrophages and T cells entering the plaque
7. Vascular smooth muscle cells form the fibrous cap, segregating the thrombogenic core from the lumen

Question 4

What is a fatty streak?

Answer 4

• Earliest change in atherosclerosis
• Lipid-filled foamy macrophages deposit in the intima
• No flow disturbance

NOTE: presence in pretty much everyone > 10 years old

Question 5

What makes up an atherosclerotic plaque?

Answer 5

3 components:

• Cells - SMC, macrophages, other leukocytes
• ECM including collagen
• Intracellular and extracellular lipid

> > Causes local flow disturbance

Question 6

What is critical stenosis?

Answer 6

• Point at which oxygen demand is greater than supply
• Occurs at around 70% occlusion
• Causes stable angina

Question 7

List three types of acute plaque change.

Answer 7

• Rupture - exposes prothrombogenic plaque contents
• Erosion - exposes prothrombogenic subendothelial basement membrane
• Haemorrhage into plaque - increases size

Question 8

In which patients does acute plaque change tend to happen?

Answer 8

Patients with mild-to-moderate atheroma (large plaques tend to be very stable)

Question 9

List some features of vulnerable plaques.

Answer 9

• Large lipid core
• Thin fibrous cap

Question 10

What is the leading cause of death worldwide for both sexes?

Answer 10

Ischaemic heart disease

Question 11

List the possible presentations of ischaemic heart disease.

Answer 11

• Angina pectoris
• MI
• Chronic ischaemic heart disease with heart failure
• Sudden cardiac death

Question 12

What degree of stenosis is required for:

• Chest pain precipitated by exercise
• Chest pain at rest

Answer 12

• 75% stenosis
• 90% stenosis

Question 13

Where are the most clinically significant sites for atheromatous plaques within the coronary circulation?

Answer 13

• First few centimetres of the LAD and left circumflex
• Entire length of right coronary artery

Question 14

What is angina pectoris?

Answer 14

• Transient ischaemia that does not produce myocyte necrosis
• Types: stable, unstable, prinzmetal (due to artery spasm)

Question 15

What are the characteristics of stable angina?

Answer 15

• Precipated by exertion
• Relieved by rest
• No plaque disruption

Question 16

What are the characteristics of unstable angina?

Answer 16

• Onset with less exertion or at rest
• Disruption of plaque
• May have superimposed thrombus
• Warning of impending infarction

Question 17

What is a myocardial infarction?

Answer 17

Death of cardiac muscle due to prolonged ischaemia.

Question 18

Outline the pathogenesis of myocardial infarction.

Answer 18

Coronary atherosclerosis > plaque rupture > superimposed platelet activation > thrombosis and vasospasm > occlusive intracoronary thrombus overlying disrupted plaque > ischaemia > myocardial necrosis

Question 19

Outline the myocardial response to plaque rupture.

Answer 19

• Loss of contractility occurs within 60 seconds
• Therefore heart failure may precede myocyte death (i.e. patients could get an arrhythmia and die before any histological changes take place)
• Irreversible after 20-30 mins

Question 20

Which arteries tend to be involved in myocardial infarction (in order of most to least frequent)?

Answer 20

• LAD - 50%
• RCA - 40%
• LCX - 10%

Question 21

Describe the microscopic changes that take place in myocardial infarction.

Answer 21

• Under 6 hours - normal histology
• 6-24 hours - loss of nuclei + striations, homogenous cytoplasm, necrotic cell death
• 1-4 days - infiltration of PMNs then macrophages
• 5-10 days - removal of debris
• 1-2 weeks - granulation tissue, new blood vessels, myofibroblasts, collagen synthesis
• Weeks to months - strengthening and decellularising the scar

Question 22

What percentage of MI are asymptomatic, and in which patient groups are these more common?

Answer 22

• 10-15%
• Common in elderly and diabetics

Question 23

What is reperfusion injury?

Answer 23

• Restoring blood flow to hypoxic tissue increases supply of oxygen which leads to increased production of ROS
• Oxidative stress, calcium overload and inflammation can cause further injury
• Arrhythmias are common
• It can cause stunned myocardium - reversible cardiac failure lasting several days

Question 24

What is hibernating myocardium?

Answer 24

• Chronic sublethal ischaemia leads to lower metabolism in myocytes which can be reversed with vascularisation

Question 25

List some complications of MI.

Answer 25

DARTH VADER

• Death
• Arrythmia
• Rupture
• Tamponade
• Heart failure
• Valve disease
• Aneurysm (ventricular)
• Dressler’s syndrome
• Embolism
• Recurrence

Question 26

What is the 1-year mortality after an MI?

Answer 26

30%

Question 27

What is chronic ischaemic heart disease?

Answer 27

• Progressive heart failure due to ischaemic myocardial damage
• Leads to hypertrophied, dilated LV
• Usually due to long-standing atherosclerosis
• Microscopic fibrosis

NOTE: there may be no prior infarction

Question 28

What is sudden cardiac death?

Answer 28

• Unexpected death from cardiac causes in individuals without symptomatic heart disease or early (1hr) after the onset of symptoms
• Usually due to lethal arrhythmia

Question 29

What are some underlying conditions that can cause sudden cardiac death?

Answer 29

IHD (90%)

• Acute myocardial ischaemia the usual trigger
• Leads to electrical instability of the conduction system
• This usually occurs at sites of old MI scars

Non-atherosclerotic cause (10%) - e.g. long QT

Question 30

List some causes of heart failure.

Answer 30

• Ischaemic heart disease
• Valve disease
• Hypertension
• Myocarditis
• Cardiomyopathy

Question 31

List some complications of heart failure.

Answer 31

• Sudden death
• Arrhythmias
• Systemic emboli
• Pulmonary oedema with superimposed infection
• Hepatic cirrhosis (nutmeg liver)

Question 32

Outline the histology of heart failure.

Answer 32

• Dilated heart
• Scarring and thinning of the walls
• Fibrosis and replacement of ventricular myocardium

Question 33

What are cardiomyopathies?

Answer 33

Intrinsic problems of the heart muscle

Question 34

What is dilated cardiomyopathy?

Answer 34

Caused by progressive loss of myocytes leading to a dilated heart

Systolic dysfunction

Question 35

List some causes of dilated cardiomyopathy.

Answer 35

• Idiopathic
• Genetic: familial, haemochromatosis
• Infection: post-viral myocarditis
• Toxins: alcohol, drugs (cocaine, doxorubicin)

Question 36

What is hypertrophic cardiomyopathy?

Answer 36

• Thickening of the heart muscle
• Family history in 50% of cases
• Leads to ventricular outflow obstruction and arrhythmia

Diastolic dysfunction

NOTE: some are associated with a specific abnormality in the beta-myosin heavy chain

Question 37

What is restrictive cardiomyopathy?

Answer 37

Impaired ventricular compliance - diastolic dysfunction, near-normal systolic function

Causes:

• Amyloidosis
• Sarcoidosis
• Haemochromatosis

Question 38

What is chronic rheumatic heart disease caused by?

Answer 38

Antigenic mimicry
Caused by immune cross-reactivity of group A streptococcal antigens and cardiac valves

Question 39

Which valve is most commonly affected in rheumatic heart disease?

Answer 39

Mitral valve

Question 40

What is the most common cause of aortic stenosis?

Answer 40

Aortic valve sclerosis - calcification (age-related)

Question 41

List some causes of aortic regurgitation.

Answer 41

Valvular defect

• Congential bicuspid valve
• Age-related degeneration
• RHD
• Endocarditis

Aortic dilatation

• Dissection
• Chronic hypertension
• Connective tissue diease e.g. Marfan’s
• Aortitis e.g. syphilis

Question 42

Which valves are most commonly affected by endocarditis?

Answer 42

• Left-sided valves (mitral > aortic)
• If IVDU, then tricuspid

Question 43

What are the two different types of true aneurysms?

Answer 43

• Saccular
• Fusiform

Question 44

Describe the histology of rheumatic heart disease

Answer 44

• Beady fibrous vegetations (verrucae)
• Aschoff bodies (small giant-cell granulomas)
• Anitschkov myocytes (regenerating myocytes)

Question 45

Acute vs subacute endocarditis?

Answer 45

Causative organism:

• Acute = staph aureus, strep pyogenes
• Subacute = strep viridans

Virulence:

• Acute = high
• Subacute = low

Vegetation morphology:

• Acute = larger and more localised
• Subacute = friable, soft thrombi, few mm in size

Spread:

• Acute = aorta
• Subacute = chordae

Question 46

Treatment for infective endocarditis?

Answer 46

Acute:

• MSSA - fluclox
• MRSA - rifampicin + vancomycin + gentamicin

Subacute:

• Benzylpenicillin + gentamicin, or vancomycin for 4wks

Question 47

What is the most common cause of constrictive pericarditis?

Answer 47

TB

Question 48

What is the most common cause of myocarditis?

Answer 48

Viral infection

Question 49

What is the most common primary tumour in the heart?

Answer 49

Myxoma

Question 50

What type of necrosis occurs in MI?

Answer 50

Coagulative necrosis

Question 51

What is the most common cause of mitral valve stenosis?

Answer 51

Rheumatic heart disease