Atherosclerosis

Question 1

Define atherosclerosis

Answer 1

Characterized by fibrous thickening of the arterial wall associated with lipid-infiltrated plaques that may eventually calcify

Question 2

What size of arteries are usually affected by atherosclerosis?

Answer 2

Mid to large

Question 3

Which areas in arteries are most likely to suffer from lesions?

Answer 3

Areas of turbulent flow and increased shear stress

Question 4

Why are compliance and flow affected by atherosclerosis?

Answer 4

Atherosclerosis reduces the diameter of the artery

Question 5

What is the first step in progression of atherosclerosis?

Answer 5

LDL cholesterol adhesion and infiltration - LDL binds cholesterol and penetrates the intima layer due to leaky endothelium

Question 6

What happens in atherosclerosis progression after LDL adhesion and infiltration?

Answer 6

LDL oxidation via ROS

Question 7

What happens after LDL oxidation in the progression of atherosclerosis?

Answer 7

Monocyte infiltration, production of chemokines, macrophage infiltration

Question 8

What happens in the progression of atherosclerosis after macrophage infiltration?

Answer 8

Scavenger receptor recognition of altered LDLs, stimulating inflammation.

Question 9

Does foam cell formation happen before or after SMC migration in the progression of atherosclerosis?

Answer 9

Before

Question 10

What happens in the progression of atherosclerosis after SMC migration

Answer 10

Apoptosis, necrosis, calcification and subsequent formation of thrombi and clots

Question 11

What is the function of endothelial cells

Answer 11

Serve as a physical barrier, protective, anti-inflammatory, vasodilatory, non-thrombogenic

Question 12

How is an endothelial cell activated by inflammation changed?

Answer 12

Increase permeability, increase inflammatory cytokines, increase leukocyte adhesion molecules, decrease vasodilatory molecules, decrease antithrombotic molecules

Question 13

How is a smooth muscle cell changed in diseased states (atherosclerosis)?

Answer 13

Increased inflammatory cytokines, increased extracellular matrix synthesis, increased migration and proliferation into subintima

Question 14

Where are SMC normally located?

Answer 14

Contained in the medial layer

Question 15

What molecules promote vasodilation in normal endothelial cells?

Answer 15

NO, prostacyclin, endothelin

Question 16

What molecules resist thrombosis in normal endothelial cells?

Answer 16

Heparan sulfate, thrombomodulin, plasminogen factors

Question 17

Where do LDLs infiltrate in atherosclerosis?

Answer 17

Into subendothelial region

Question 18

How does oxidized LDL impact vasodilation?

Answer 18

It blocks NO synthase, therefore there cannot be vasodilation

Question 19

How does calcification impact plaque stability?

Answer 19

Decreases it

Question 20

Describe the make up of a “vulnerable” plaque?

Answer 20

Thin fibrous cap, large lipid pool, many inflammatory cells

Question 21

Describe the make up of a “stabilized” plaque

Answer 21

Small lipid pool, thick fibrous cap, preserved lumen

Question 22

Describe the make up of a healed ruptured plaque

Answer 22

Narrow lumen, may entirely occlude blood flow; fibrous intima

Question 23

What 2 things favor thrombosis?

Answer 23

Procoagulant (tissue factor) and antifibrinolytic (PAI-1, stabilizes clot)

Question 24

What 2 things resist thrombus accumulation?

Answer 24

Anticoagulants (thrombomodulin, protein S, protein C, heparin-like molecules) and profibrinolytics (tPA, uPA)

Question 25

What is a major causative factor in clinical sequelae of atherosclerosis?

Answer 25

Intravascular thrombosis

Question 26

How does aspirin resist thrombus formation?

Answer 26

Inhibits thromboxane production by platelets

Question 27

In the clinical sequelae of atherosclerosis, what specifically causes embolic stroke?

Answer 27

Peripheral emboli

Question 28

In the clinical sequelae of atherosclerosis, what specifically causes thrombotic stroke?

Answer 28

plaque ulceration or rupture and intraplaque hemorrhage

Question 29

In the clinical sequelae of atherosclerosis, what specifically causes aneurysms?

Answer 29

Weakening of vessel wall

Question 30

In the clinical sequelae of atherosclerosis, what specifically causes claudication (PAD)

Answer 30

Narrowing of vessel by fibrous plaque

Question 31

In the clinical sequelae of atherosclerosis, what specifically causes Limb ischemia?

Answer 31

narrowing of vessel by fibrous plaque and peripheral emboli (skin ulceration, gangrene)

Question 32

In the clinical sequelae of atherosclerosis, what specifically causes myocardial ischemia?

Answer 32

Narrowing of vessel by fibrous plaque

Question 33

In the clinical sequelae of atherosclerosis, what specifically causes unstable angina

Answer 33

Plaque ulceration or rupture and intraplaque hemorrhage

Question 34

In the clinical sequelae of atherosclerosis, what specifically causes myocardial infarction

Answer 34

Plaque ulceration or rupture and intraplaque hemorrhage

Question 35

How does the following condition accelerate the progression of atherosclerosis: Male gender and females after menopause

Answer 35

Lack of LDL-lowering effect of estrogens, estrogens probably act by increasing the number of LDL receptors in the liver

Question 36

How does the following condition accelerate the progression of atherosclerosis: Primary HLD

Answer 36

Inherited disorders cause lipoprotein lipase deficiency, defective LDL receptors, abnormal apoprotein E, deficiency of apoprotein C, or unknown cause

Question 37

How does the following condition accelerate the progression of atherosclerosis:: secondary HLD

Answer 37

Increased circulating triglycerides produced by diuretics, beta adrenergic blocking drugs, excess alcohol intake

Question 38

How does the following condition accelerate the progression of atherosclerosis: Cigarette smoking

Answer 38

Probably CO induced hypoxic injury to endothelial cells

Question 39

How does the following condition accelerate the progression of atherosclerosis: HTN

Answer 39

increased shear stress with damage to endothelium

Question 40

How does the following condition accelerate the progression of atherosclerosis: Diabetes

Answer 40

Decreased hepatic removal of LDL from circulation; increased glycosylation of collagen, which increases LDL binding to vessel walls

Question 41

How does the following condition accelerate the progression of atherosclerosis: obesity, particularly abdominal obesity

Answer 41

Alters endothelial function and inflammatory state

Question 42

How does the following condition accelerate the progression of atherosclerosis: hypothyroidism

Answer 42

Decreased formation of LDL receptors in the liver

Question 43

What are lipid modifying drugs?

Answer 43

HMG-CoA reductase inhibitors (Statins), niacin, fibric acid derivatives, cholesterol intestinal absorption inhibitors, bile-acid binding agents

Question 44

What is the desirable amount of total cholesterol?

Answer 44

Less than 200 mg/dL

Question 45

What is the optimal amount of LDL cholesterol

Answer 45

Less than 100 mg/dL

Question 46

What is the cardioprotective amount of HDL cholesterol?

Answer 46

240 mg/dL

Question 47

What is the mechanism by which the following drug treats atherosclerosis: Statins

Answer 47

Inhibit cholesterol synthesis, anti-inflammatory

Question 48

What is the mechanism by which the following drug treats atherosclerosis: Niacin (nicotinic acid)

Answer 48

Inhibits fat breakdown in adipose tissue and increases HDL cholesterol, anti-inflammatory

Question 49

What is the mechanism by which the following drug treats atherosclerosis: Aspirin

Answer 49

Inhibits platelet aggregation

Question 50

What is the mechanism by which the following drug treats atherosclerosis: B-blockers

Answer 50

Antihypertensive

Question 51

What is the mechanism by which the following drug treats atherosclerosis: ACE inhibitors

Answer 51

Antihypertensive

Question 52

What is the mechanism by which the following drug treats atherosclerosis: Maraviroc (CCR5 antagonist)

Answer 52

Blocks CCR5 (decreases inflammation)

Question 53

Why is estrogen beneficial in atherosclerosis?

Answer 53

Increases NO production and promotes cholesterol removal by the liver