Atherosclerosis: Difference between revisions

Jump to navigation Jump to search
Line 170: Line 170:
The clinical complications of atherosclerosis are highly dependent on the location and size of affected vessels, the duration of the chronic process, and the type of plaque, since the severity of impairment of atherosclerosis differs throughout the vasculature. For example, ‘stable plaque’ can easily result into angina pectoris due to its thick fibrous cap that directly affects the diameter of the relatively small coronary vessels. On the other hand, ‘vulnerable plaque’ is non-stenotic, but can easily cause acute thrombosis and therefore myocardial infarction due to its fragility towards rupture when located at physically stressed areas such as bifurcations. Often with ‘vulnerable plaques’ there are relatively few symptoms, however they are more numerous and dispersed throughout the arteries compared to ‘stable plaque’. Thus, you can either have an occlusion due to the growing plaque or due to the embolization of the ruptured fragments of the original plaque. Due to the difficult detection of ‘vulnerable plaques’ while they are widely dispersed, it is highly important to tackle the risk factors prior to plaque rupture. Thus in the following paragraph, we will highlight the clinical risk factors associated with atherosclerosis. The four major clinical consequences of atherosclerosis are listed and explained below.<br />
The clinical complications of atherosclerosis are highly dependent on the location and size of affected vessels, the duration of the chronic process, and the type of plaque, since the severity of impairment of atherosclerosis differs throughout the vasculature. For example, ‘stable plaque’ can easily result into angina pectoris due to its thick fibrous cap that directly affects the diameter of the relatively small coronary vessels. On the other hand, ‘vulnerable plaque’ is non-stenotic, but can easily cause acute thrombosis and therefore myocardial infarction due to its fragility towards rupture when located at physically stressed areas such as bifurcations. Often with ‘vulnerable plaques’ there are relatively few symptoms, however they are more numerous and dispersed throughout the arteries compared to ‘stable plaque’. Thus, you can either have an occlusion due to the growing plaque or due to the embolization of the ruptured fragments of the original plaque. Due to the difficult detection of ‘vulnerable plaques’ while they are widely dispersed, it is highly important to tackle the risk factors prior to plaque rupture. Thus in the following paragraph, we will highlight the clinical risk factors associated with atherosclerosis. The four major clinical consequences of atherosclerosis are listed and explained below.<br />
   
   
# Acute narrowing of the vessel lumen: When the plaque ruptures, it will release its pro-coagulants in the bloodstream and that will lead to the formation of thrombus at the rupture site. The rupture often occurs at sites of erosion and fissuring on the fibrous cap surface. This thrombus may cause a complete occlusion of a particular vessel and result in ischemic necrosis (infarction) of the tissue that this particular vessel is supplying to. Clinically this is manifested as stroke, MI, gangrene of several possible organs such as intestine, spleen or lower extremities. These occlusiosn may also dissolve spontaneously due to pro-fibrinolytic enzymes such as streptokinase and tissue plasminogen activator (TPA).  
# Acute narrowing of the vessel lumen: When the plaque ruptures, it will release its pro-coagulants in the bloodstream and that will lead to the formation of thrombus at the rupture site. The rupture often occurs at sites of erosion and fissuring on the fibrous cap surface. This thrombus may cause a complete occlusion of a particular vessel and result in ischemic necrosis (infarction) of the tissue that this particular vessel is supplying to. Clinically this is manifested as stroke, MI, gangrene of several possible organs such as intestine, spleen or lower extremities. These occlusions may also dissolve spontaneously due to pro-fibrinolytic enzymes such as streptokinase and tissue plasminogen activator (TPA).  
# Chronic occlusion: When the occlusion is gradual and incomplete, it may chronically disturb the blood supply to tissues in the distribution of the affected vessel. This can result in chronic ischemia of those tissues that can additionally lead to complaints of angina pectoris or intermittent claudication or to organ atrophy (e.g. atrophy of kidney, intestines and skin due to impairment of blood flow in renal artery, mesenteric artery, peripheral vasculature among diabetics.).
# Chronic occlusion: When the occlusion is gradual and incomplete, it may chronically disturb the blood supply to tissues in the distribution of the affected vessel. This can result in chronic ischemia of those tissues that can additionally lead to complaints of angina pectoris or intermittent claudication or to organ atrophy (e.g. atrophy of kidney, intestines and skin due to impairment of blood flow in renal artery, mesenteric artery, peripheral vasculature among diabetics.).
# Embolism: Embolization is the transfer of the fragments of disrupted atheroma to distal vascular sites, which results into occlusion of those sites. For example, fragments of thrombi in abdominal aorta may transfer to the popliteal artery subsequently resulting in gangrene of the leg. Ulceration of atheroma may also produce ‘cholesterol crystal emboli’. This type of emboli is visualized as needle-shaped areas in affected tissues, mostly detected in the kidney.  
# Embolism: Embolization is the transfer of the fragments of disrupted atheroma to distal vascular sites, which results into occlusion of those sites. For example, fragments of thrombi in abdominal aorta may transfer to the popliteal artery subsequently resulting in gangrene of the leg. Ulceration of atheroma may also produce ‘cholesterol crystal emboli’. This type of emboli is visualized as needle-shaped areas in affected tissues, mostly detected in the kidney.  
# Aneurysm: After a chronic period, atherosclerotic lesion may extend into the medial layer, resulting into atrophy and loss of elastic tissue. This can subsequently cause dilatation and weakness of the artery, forming aneurysm. Over time, aneurysm may suddenly rupture and result in a life-threatening situation for the patients.
# Aneurysm: After a chronic period, atherosclerotic lesion may extend into the medial layer, resulting into atrophy and loss of elastic tissue. This can subsequently cause dilatation and weakness of the artery, forming aneurysm. Over time, aneurysms may suddenly rupture and result in a life-threatening situation for the patients.


== Risk factors of atherosclerosis ==
== Risk factors of atherosclerosis ==
401

edits

Navigation menu