Pathophysiology of atheroma

Question 1

What is atheroma/atherosclerosis?

Answer 1

Formation of focal elevated lesions (plaques) in intima of large and medium-sized arteries

Question 2

What can atheromas cause?

Answer 2

Serious consequences: angina due to myocardial ischaemia

- Complicated by thromboembolism

Question 3

What is arteriosclerosis?

Answer 3

• It is not atheromatous.
• Age-related change in muscular arteries
• Age-related change in muscular arteries
• Smooth muscle hypertrophy, apparent reduplicationof internal elastic laminae, intimal fibrosis causes a decrease in vessel diameter

Question 4

How does arteriosclerosis affect the body?

Answer 4

Contributes to high frequency of cardiac, cerebral, colonic and renal ischaemia in elderly.

Question 5

When are clinical features of arteriosclerosis most apparent?

Answer 5

They are most apparent when CVS further stressed by haemorrage, major surgery, infection, shock.

Question 6

Is it possible to have arteriosclerosis and atheromatous together?

Answer 6

YES

Question 7

What is a Fatty streak in atherosclerosis?

Answer 7

• It is the earliest visible lesion of atherosclerosis

- It is due to an accumulation of lipid-laden foam cells in the intimal layer of the artery.

Question 8

What is the main hallmark of established atherosclerosis?

Answer 8

Over time , the fatty streak evolves into a fibrous plaque, the hallmark of established atherosclerosis.
- Patients are at risk when there are atheromatous plaques

Question 9

Features of a Fatty streak

Answer 9

• Earliest significant lesion
• Seen in young children
• Yellow linear elevation of intimal lining
• Comprises masses of lipid-laden macrophages
• No clinical significance
• May disappear

Question 10

Features of early atheromatous plaque

Answer 10

• Seen in young adults onwards
• Smooth yellow patches in intima
• Lipid-laden macrophages
• Progress to established plaques

Question 11

What does a fully developed atheromatous plaque contain?

Answer 11

• Central lipid core with fibrous tissue cap, covered by arterial endothelium
• Collagens (produced by smooth muscle cells) in cap provide structural strength
• Inflammatory cells (macrophages, T-lymphocytes, mast cells) reside in fibrous cap: recruited from arterial endothelium.
• Central lipid core rich in cellular lipids/debris derived from macrophages (died in plaque)
• Soft, highly thrombogenic, often rim of “foamy” macrophages

Question 12

Features of complicated atheroma

Answer 12

• It has the same features of established atheromatous plaque (lipid-rich core, fibrous cap) plus:
• Haemorrhage into plaque (calcification)
• Plaque rupture/fissuring
• Thrombosis

Question 13

What is calcified atheroma?

Answer 13

Aortic valve calcification is a condition in which calcium deposits form on the aortic valve in the heart.
- These deposits can cause narrowing at the opening of the aortic valve. This narrowing can become severe enough to reduce blood flow through the aortic valve — a condition called aortic valve stenosis.

Question 14

Aetiology of atheroma

Answer 14

• Hypercholesterolaemia is the most important risk factor.
• Causes plaque formation and growth in absence of other known risk factors
• Importance of LDL cholesterol: studies of patients/animals with genetically determined lack of cell membrane receptors for LDL.

Question 15

What is hypercholesterolaemia?

Answer 15

Hypercholesterolemia (high cholesterol), is the presence of high levels of cholesterol in the blood.
- It is a form of hyperlipidemia, high blood lipids, and hyperlipoproteinemia (elevated levels of lipoproteins in the blood).

Question 16

What is the LDL cholesterol problem in 1/500 caucasians?

Answer 16

• Decreased functional receptors on cell surfaces.

- Elevated plasma LDL cholesterol levels.

Question 17

What are signs of major hyperlipidaemia?

Answer 17

• Familial/primary vs acquired/secondary
• Biochemical evidence: LDL, HDL, total cholesterol, triglycerides
• Corneal arcus (premature)
• Tendon xanthomata (knuckles, achilles)
• Xanthelasmata
• Risk/premature/family history MI/atheroma

Question 18

Risk factors for atheroma

Answer 18

• Smoking
• Hypertension
• Diabetes mellitus
• Being male
• Being old
  These accelerate process of plaque formation driven by lipids.

Other risk factors: huge variation in disease severity among patients with same cholesterol levels.

Question 19

Less strong risk factors for atheroma

Answer 19

• Obesity
• Sedentary lifestyle
• Low socio-economic status
• Low birthweight
• ?role of micro-organisms?

Question 20

Two step process in the development of atheromatous plaques

Answer 20

1. Injury to endothelial lining of artery
2. Chronic inflammatory and healing response of vascular wall to agent causing injury

Chronic/episodic exposure of arterial wall to these processes causes formation of atheromatous plaques.

Question 21

Order of events in the pathogenesis of atherosclerosis

Answer 21

• Endothelial injury and dysfunction
• Accumulation of lipoproteins (LDL) in vessel wall
• Monocyte adhesion to endothelium > migration into intima and transformation to foamy macrophages.
• Platelet adhesion
• Factor release from activated platelets, macrophages > smooth muscle cell recruitment
• Smooth muscle cell proliferation, extracellular matrix production and T-cell recruitment.
• Lipid accumulation (extracellular and in foamy macrophages).

Question 22

What are the most important causes of endothelial injury?

Answer 22

• Haemodynamic disturbances (turbulent flow)
• Hypercholesterolaemia (chronic hypercholesterolaemia can directly impair endothelial cell function by increasing local production of reactive oxygen species)

Question 23

In hypercholesterolaemia, how do lipoproteins aggregate?

Answer 23

• lipoproteins aggregate in intima and are modified by free radicals produced by inflammatory cells → modified LDL accumulated by macrophages but not completely degraded → foamy macrophages → toxic to endothelial cells plus release of growth factors, cytokines

Question 24

How are injured endothelial cells functionally altered?

Answer 24

• Enhanced expression of cell adhesion molecules (ICAM-1, E-selectin)
• High permeability for LDL
• Increased thrombogenecity

Inflammatory cells, lipids → intimal layer → plaques

Question 25

How does advanced plaque formation occur?

Answer 25

• Large numbers macrophages, T-lymphocytes
• Lipid-laden macrophages die through apoptosis > lipid into lipid core
• Response to injury = chronic inflammatory process: 1. Inflammatory reaction 2. Process of tissue repair
• Growth factors (PDGF) → proliferation intimal smooth muscle cells, subsequent synthesis collagen, elastin, mucopolysaccharide
• Fibrous cap encloses lipid rich core
• Growth factors secreted by platelets, injured endothelium, macrophages and smooth muscle cells.

Question 26

What forms at denuded areas of plaque surface in development of atheromatous plaques?

Answer 26

Microthrombi
- Microthrombi formed at denuded areas of plaque surface → organised by same repair process (smooth muscle cell invasion and collagen deposition

• Repeated cycles gradually increase plaque volume.

Question 27

What are consequences of atheroma: clinical manifestations?

Answer 27

• Many plaques form over lifetime, many clinically unnoticed
• Clinical disease: relatively benign to life-threatening/fatal.
• Acute changes in plaques (complicated atheroma) → serious consequences

Question 28

What occurs due to high grade plaque stenosis

Answer 28

This causes progressive lumen narrowing

Question 29

What does acute atherthrombotic occlusion cause?

Answer 29

• Major complications: rupture of plaque → acute event
• rupture exposes highly thrombogenic plaque contents (collagen, lipid, debris) to blood stream → activation of coagulation cascade and thrombotic occlusion in a very short time.

Question 30

What can a total occlusion cause?

Answer 30

Total occlusion → irreversible ischaemia → necrosis (infarction) of tissues

e.g. myocardial infarct (coronary artery), stroke (carotid, cerebral artery), lower limb gangrene (ileal, femoral, popliteal artery).

Question 31

Who is at heightened risk for arterial embolisation?

Answer 31

Surgical and intensive care patients are at a heightened risk for arterial embolisation due to pre-existing conditions such as age, hypercoagulability, cardiac abnormalities and atherosclerotic disease.

Question 32

Where do most arterial emboli originate and travel?

Answer 32

-Most are clots that originate in the heart and travel to distant vascular beds where they cause arterial occlusion, ischaemia, and potentially infarction.

Question 33

How does ambolisation of the distal arterial bed occur?

Answer 33

• Detachment of small thrombus fragments from thrombosed atheromatous arteries → embolise distal to ruptured plaque.
• Embolic occlusion of small vessels → small infarcts in organs.

Question 34

How does ruptured atheromatous abdominal aortic aneurysm occur?

Answer 34

• Media beneath atheromatous plaques gradually weakened (lipid-related inflammatory activity in plaque)
  → gradual dilatation of vessel
• Sudden rupture → massive retroperitoneal haemorrhage (high mortality)
• Aneurysms >5cm diameter are at high risk of rupture
• Mural thrombus → emboli to legs

Question 35

What are vulnerable atheromatous plaques?

Answer 35

• Atheromatous plaques that rupture with subsequent thrombosis: distinct morphological features.
• Typically thin fibrous cap, large lipid core, prominent inflammation.

Question 36

What causes an increase in risk of plaque rupture?

Answer 36

Pronounced infammatory activity → degradation, weakening of plaque → increased risk of plaque rupture

• Secretion of proteolytic enzymes, cytokines and reactive oxygen species by plaque inflammatory cells.
• Highly stenotic plaques often large fibrocalcific component, little inflammation

Question 37

What are preventative and therapeutic approaches for atherosclerosis?

Answer 37

• Stop smoking
• Control blood pressure
• Weight loss
• Regular exercise
• Dietary modifications

Question 38

Secondary prevention methods for atherosclerosis?

Answer 38

Cholesterol lowering drugs, aspirin (inhibits platelet aggregation to decrease risk of thrombosis on established atheromatous plaques)

• OR surgical options