Atherosclerosis CVS 1 Hisham Al Khalidi. Atherosclerosis.wmv

AtherosclerosisCVS 1

Hisham Al Khalidi

Atherosclerosis.wmv

Vessel wall structure

Atherosclerosis

• A type of arteriosclerosis• Chronic inflammatory response in the walls of

arteries• Slowly progressive• A build-up of fat (cholesterol) within the

artery wall• Characterized by intimal lesions called:

atheromas, atheromatous or fibrofatty plaques

Atherosclerosis Common sites

• Abdominal aorta• Coronaries• Popliteal artery• The internal carotid arteries• The vessels of the circle of Willis

Atherosclerosis Risk factors

LDL Vs. HDL

• LDL cholesterol : deliver cholesterol to peripheral tissues.

• When too much LDL (bad) cholesterol circulates in the blood, it promotes atheroma formation in the arteries.LDLs contribute to heart disease because they carry large amounts of cholesterol.

LDL Vs. HDL

• HDL, :is known as “good” cholesterol, because high levels of HDL seem to protect against heart attack.

• it mobilizes cholesterol from developing and existing atheromas and transports it to the liver for excretion in the bile.

AtherosclerosisContents

• Important !

AtherosclerosisPathogenesis

• The main components of a fibrofatty plaques:– Lipids– Extracellular matrix– Cells, Proliferating smooth muscle cells

Atherosclerosis Pathogenesis

response-to-injury hypothesis• Endothelial injury– Not completely understood– Nevertheless, the two most important causes of

endothelial dysfunction are:• Hemodynamic disturbances• Hypercholesterolemia

– Inflammation is also an important contributor.

• Smooth muscle cell proliferation

Processes in the response to injury hypothesis.

1, Normal.

2, Endothelial injury with adhesion of monocytes and platelets (the

latter to denuded endothelium).

3, Migration of monocytes (from the lumen) and smooth muscle cells (from the media) into the intima.

4, Smooth muscle cell proliferation in the intima.

5, Well-developed plaque.

AtherosclerosisConsequences

Atherosclerosis Complications

The advanced lesion of atherosclerosis is at risk for the following pathological changes that have clinical significance:

1) Focal rupture, ulceration, or erosion of the luminal surface of atheromatous plaques may result in exposure of highly thrombogenic substances that induce thrombus formation or discharge of debris into the bloodstream, producing microemboli composed of lesion contents (cholesterol emboli or atheroemboli).

Atherosclerosis Complications

• 2) Hemorrhage into a plaque, especially in the coronary arteries, may be initiated by rupture of either the overlying fibrous cap or the thin-walled capillaries that vascularize the plaque. A contained hematoma may expand the plaque or induce plaque rupture.

Atherosclerosis Complications

• 3)Superimposed thrombosis, the most feared complication, usually occurs on disrupted lesions (those with rupture, ulceration, erosion, or hemorrhage) and may partially or completely occlude the lumen. Thrombi may heal and become incorporated into and thereby enlarge the intimal plaque.

Atherosclerosis Complications

4)Aneurysmal dilation may result from ATH-induced atrophy of the underlying media, with loss of elastic tissue, causing weakness and potential rupture

5) Calcifications.

Atherosclerosis Clinical Complications

• Myocardial infarction (heart attack)• Cerebral infarction (stroke)• Aortic aneurysms• Mesentric occlusion • Peripheral vascular disease (gangrene of the

legs)

Morphological changes that are seen on macro and microscopic levels in

atherosclerosis

• Calcification• Hemorrhage• Fissure• Ulcer• Thrombosis• Neovascularization• Medial thinning• Cholesterol microemboli• Aneurysmal dilatation