Pathology of Atheroma

Question 1

Define Atheroma/Atherosclerosis

Answer 1

The formation of focal elevated lesions (plaques) in the intima of large and medium sized arteries

Question 2

What happens as a result of atheromatous plaque in coronary arteries?

Answer 2

Myocardial Ischaemia -> Angina

Question 3

What is a common complication of atheroma?

Answer 3

Thromboembolism

Question 4

Remember Arteriosclerosis is not the same as atherosclerosis!!! wat is it dogh?

Answer 4

Arteriosclerosis is an age-related change in muscular arteries.
Smooth muscle hypertrophys, apparent reduplication of IEL with intimal fibrosis. All leads to a decreased vessel diameter.

Question 5

What CV conditions does arteriosclerosis contribute to?

Answer 5

Cardiac, Cerebral, colonic and renal ischaemia.

Obviously in the elderly given its an age related condition.

Question 6

When is arteriosclerosis likely to become apparent to a clinician?

Answer 6

When the CVS is further stressed by haemorrhage, surgery, infection or shock.

Question 7

What are the phases of atheroma?

Answer 7

• > Fatty Streak
• > Early Atheromatous Plaque
• > Fully developed atheromatous plaque

Question 8

A fatty streak is the earliest phase of an atheroma, what does it look like and what comprises it?

Answer 8

A yellow linear elevation within the intimal lining of the artery.
Its made of masses of lipid laden macrophages.

Question 9

What is the significance of a fatty streak?

Answer 9

It has no clinical significance as it causes no effects and it may well disappear on its own,
However these patients are considered ‘at risk’ of developing atheromatous plaques.

Question 10

In what age is it common to see fatty streaks in arteries?

Answer 10

Young children

Question 11

An early atheromatous plaque is the first non-reversible stage of atheroma development, what does it look like and what is it made of?

Answer 11

Early atheromatous plaque looks like smooth yellow patches in the T. Intima.
Its made of lipid laden macrophages much like a fatty streak

Question 12

In what age do we commonly see an early atheromatous plaque?

Answer 12

Young adults and up.

Question 13

What makes up a fully established atheromatous plaque?

Answer 13

A central lipid core covered by a fibrous tissue cap all within the intimal lining.

Question 14

What fibrous tissue provides structural strength to the atheromatous plaque, and what produces it?

Answer 14

Collagen in the fibrous cap provides structural strength to a plaque.
The collagen is made in smooth muscle cells

Question 15

What cell types are found within the fibrous tissue cap?

Answer 15

Inflammatory cells such as macrophages, T lymphocytes and mast cells.

Question 16

Other than the obvious lipids, what is found in the central lipid core of a fully developed atheromatous plaque?

Answer 16

Cellular debris derived from macrophages that died in the plaque.

Question 17

What gives many atheromatous plaques a ‘foamy’ rim?

Answer 17

Macrophages that have partially broken down lipoproteins to give the foamy appearance.

Question 18

What feature of a fully developed atheromatous plaque is a useful marker in angiograms/CT?

Answer 18

The extensive dystrophic calcification

Question 19

Where do atheromas most often form?

Answer 19

At points of turbulent flow.

Such as the branchin points of arteries.

Question 20

What do we call a late stage plaque that covers a large area?

Answer 20

Confluent

Question 21

What are the features of a complicated atheroma?

Answer 21

The same as a fully developed atheromatous plaque (lipid core + fibrous capsule)
Plus:
- Haemorrhage into the plaque
- Plaque rupture or fissuring
- Thrombosis

Question 22

Atheroma can be caused by one major risk factor alone, what is this?

Answer 22

Hypercholesterolaemia (hyperlipidaemia)

Question 23

How do genetics cause hypercholesterolaemia?

Answer 23

The présence/function of LDL receptors is determined genetically.
1/500 are heterozygous for mutations resulting in reduced function and therefore increased blood LDL.
1/1million are homozygous and usually die of coronary atheroma before adulthood.

Question 24

What are the signs of major hyperlipidaemia?

Answer 24

LDL, HDL, total cholesterol and triglyceride levels.

Corneal arcus (cholesterol deposit around iris)
Xanthelesmata (cholesterol deposit in periorbital region)
Tendon Xanthomata (On the tendons of knuckles or achilles usually)

A family history of MI or atheroma

Question 25

What are the types of hyperlipidaemia?

Answer 25

Primary or Familial
Acquired or Secondary
Idiopathic

Question 26

What other strong risk factors accelerate the process of plaque formation?

Answer 26

Smoking
Hypertension
Diabetes Mellitus
Being Male
Being Elderly

Question 27

What other risk factors contribute in some way to atheroma but not hugely?

Answer 27

• Obesity
• Sedentary lifestyle
• Low birthweight
• Low socio-economic status

Question 28

What are the 2 major steps in formation of atheromatous plaques?

Answer 28

• Injury to the endothelial lining

- Chronic inflammatory and healing response of vascular wall

Question 29

What is the more detailed process of development of the lipid core of an atheroma?

Answer 29

Essentially. circulating lipid along with smooth msucle and inflammatory cells form a large mass within the endothelium that drives continued inflammation adding to itself.

• Endothelial injury & dysfunction
• LDL accumulates in the exposed vessel wall
• Monocytes adhere to the endothelium, migrate into the intima and convert macrophages
• Platelets adhere to the injury.
• Activated platelets & macrophages release growth factors that drives smooth muscle cell recruitment
• Smooth muscle proliferates, ECM is produced and T cells are recruited
• Lipids accumulate, both extracellular and within foamy macrophages.

Question 30

What are the 2 most important ways the endothelium becomes injured?

Answer 30

By haemodynamic disturbances (turbulent flow)
By hypercholesterolaemia (lipoproteins are partially degraded when stuck to the wall by inflammatory cells releasing toxic growth factors and cytokine that directly damage the wall.)

Question 31

How is the function of injured endothelial cells different?

Answer 31

+ The injured cells have a high permeability for LDL hence why it accumulates so much.
+ Increased Thrombogeneicity
+ Incread expression of cell adhesion molecules which help form the messy sticky atheroma.

Question 32

How does the fibrous cap form on an atheroma?

Answer 32

Chronic inflammation leads to tissue repair.
Growth factors like PDGF are released leading to synthesis of collagen, elastin and mucopolysaccharide much like a scar along with smooth muscle proliferation.
The growth factors are released by platelets, the endothelium, macrophages and smooth muscle cells.

Question 33

How does an established plaque spread?

Answer 33

Patches of endothelium covering are destroyed by organisation (smooth muscle invades and collagen is deposited). This also forms microthrombi (blood clots) on the surface/

Question 34

How serious is atheromatous disease?

Answer 34

Can be benign all the way to life threatening.

Complications of atheroma can also be life threatening

Question 35

What are the common consequences of atheroma?

Answer 35

• Progressive narrowing of lumen (stenosis)
• Acute atherotrhombotic occulusion
• Embolisation to a distal arterial bed
• Ruptured atheromatous aortic aneurysm

Question 36

What happens if stenosis of the vessel lumen gets to 50-75%?

Answer 36

Thers a critical reduction of blood flow in the distal arterial bed and reversible tissue ischaemia occurs.

Question 37

Give an example of reversible tissue ischaemia due to atheromatous stenosis?

Answer 37

A stenosed atheromatous coronary artery can lead to stable angina

Question 38

What do we mean when we say reversible tissue ischaemia?

Answer 38

It is triggered by something and can be relieved.

E.g. myocardial ischemia occurs on exertion and is relieved by rest.

Question 39

What happens if the stenosis is very severe (i.e. >75% of the lumen)?

Answer 39

Ischaemic pain occurs at rest.

e.g. unstable angina in a stenosed atheromatous coronary artery

Question 40

What do we call stenosis of the peripheral arteries (ilieal/femoral/popliteal etc)

Answer 40

Peripheral Arterial Disease

Most often due to atheroma.

Question 41

What is the major symptom of peripheral arterial disease?

Answer 41

Intermittent Claudication (on exertion usually so its clearly reversible tissue ischemia)

Question 42

What happens to the tissue if theres longstanding tissue ischemia?

Answer 42

The affected organ atrophys.

E.g. longstanding severe atherosclerotic renal artery stenosis leads to renal atrophy

Question 43

How does an acute atherothrombotic occlusion occur?

Answer 43

• The plaque ruptures
• Exposes highly thrombogenic plaque contents
• Activates coagulation cascade
• Very quick thrombotic occlusion

Question 44

What happens if a thrombotic occlusion is total?

Answer 44

• > Total occlusion
• > Irreversible ISchaemia
• > Necrosis (infarction) of tissue

Question 45

How does an embolisation to a distal arterial bed occur?

Answer 45

Small thrombus fragments detach from the atheroma.
They travel to distal vessels and get stuck, occluding the vessels of the capillary bed.
This gives you small local infarcts

Question 46

What happens if small emboli occlude heart vessels?

Answer 46

Dangerous small foci of necrosis within the myocardium leading to life threatening arrhythmias

Question 47

What happens if emboli detach from an atheroma in the carotid artery?

Answer 47

Either a cerebral infarct causing full blown stroke

Or Transient Ischaemic Attack (mini-stroke, TIA)

Question 48

How does a ruptured atheromatous abdominal aortic aneurysm occur?

Answer 48

Inflammatory activity due to the lipid plaque causes the T. Media underneath to erode.
The vessel gradually dilatates until it suddenly ruptures.
Result: massive retroperitoneal haemorrhage and often death.

Question 49

What else can occur due to an aneurysm in the abdominal aorta?

Answer 49

Prior to rupturing the atheromatous plaque can form a mural thrombus which gives off emboli to the legs.

Question 50

What is mural thrombus?

Answer 50

A thrombus in the wall of a heart chamber of large artery (provided it doesnt totally occlude it)

Question 51

What is a vulnerable atheroma?

Answer 51

One at high risk of becoming complicated. i.e. rupturing and forming a thrombosis.

Question 52

How do we recognise vulnerable atheroma?

Answer 52

Thin fibrous tissue cap
Large lipid core
Prominent Inflammation

Question 53

What preventative measures can be taken to lower risk of atheromatous disease?

Answer 53

• Smoking cessation
• BP control
• Weight loss
• Regular exercise
• Improve Diet

Question 54

What preventative measures can we take to control the impact of existing atheromatous plaques?

Answer 54

Cholesterol lowering drugs.
Aspirin (inhibits platelets thus decresing risk of thrombosis
Surgery