Thoracic aortic aneurysm pathophysiology: Difference between revisions

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Revision as of 19:57, 21 October 2012

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Aarti Narayan, M.B.B.S [2]

Overview

An aneurysm occurs when a part or entire circumference of the vessel is pathologically dilated. A true aneurysm involves all three layers of the vessel, whereas pseudoaneurysm is characterized by disruption of the intima and media, and the dilated segment of the aorta is lined by adventitia alone.

Pathophysiology

The clinical manifestations of thoracic aortic aneurysms depends on hemo-dynamic factors as well as factors intrinsic to individual arterial components.
Cystic medial necrosis is the most common pathology associated with ascending aortic aneurysms, whereas atherosclerosis is most frequently involved in the arch and descending aorta.
The aortic aneurysms associated with Marfan syndrome grow at a faster rate and are more prone to rupture.
Most thoracic aneurysms are asymptomatic. However, the enlarging aorta can compress adjacent organs and cause symptoms like chest pain, dyspnea, hoarseness of voice, cough and dysphagia. Also symptoms of congestive heart failure can occur from severe aortic regurgitation and congestion of head, neck and upper extremities from superior vena cava compression.

Elastin and collagen

Increased activity of certain enzymes causes degradation of elastin and collagen in the arteries. This leads to loss of elasticity, weakens the aortic wall and causes it to dilate.
Moreover, the part of aorta below the origin of renal arteries has less amount of elastin compared to collagen, accounting for increased frequency of aneurysms in this area.
In patients with Marfan syndrome there is a defect on chromosome 15 that is associated with impaired fibrillin synthesis, which is the core protein of microfibrils. Frequently among patients with Marfan's syndrome there is cystic medial degeneration.

Hemodynamic factors

The aorta being a low resistance circuit, repeated trauma from a reflected wave results in dilatation.
Systemic hypertension accelerates the process of dilatation of aorta and contributes to the formation of aneurysms.

Gross Pathology

Images shown below are courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology

Dissecting Aneurysm: Gross very good example dissected channel has been opened
Dissecting Aneurysm: Gross external view good appearance from adventitia
Dissecting Aneurysm: Gross opened false channel

Dissecting Aneurysm: Gross good example dissection beginning at third portion aortic arch
Dissecting Aneurysm: Gross cross sections showing thrombus in false lumen true lumen has been opened longitudinally
Dissecting Aneurysm: Gross shows origin just above aortic valve false channel shown in descending thoracic aorta (very good example)

Atherosclerotic Aneurysm: Gross, a good example of typical abdominal aorta aneurysm with mural thrombus
Dissecting Aneurysm: Gross, a very good example of dissection beginning just above aortic ring
Atherosclerotic Aneurysm: Gross, (rather) good example of abdominal aortic aneurysm

Dissecting Aneurysm: Gross, an excellent example, starting just above the aortic valve with reflection of aorta to show the dissection tract and some thrombus
Dissecting Aneurysm: Gross shows dilated aorta with extensive atherosclerosis dissection is seen, a small abdominal aorta atherosclerotic aneurysm is present good for association of dilation with dissection
Dissecting Aneurysm: Gross arrow points to start of dissection in first portion aortic arch good but not the best example shows dilation

Dissecting Aneurysm: Gross, very good to show start of dissection above aortic valve and blood in false channel
Dissecting Aneurysm: Gross, heart with root of aorta to show hemorrhage into pericardium (a very good example)
Dissecting Aneurysm: Gross, of heart and aorta with dissection and large false channel (a good example)

Dissecting Aneurysm: Gross cross section of aorta with two channels (a good example)
Atherosclerotic Aneurysm: Gross, a nice view of cross section of abdominal aorta aneurysm
Dissecting Aneurysm: Gross good example of typical angular tear above aortic valve

Dissecting Aneurysm: Gross good example angular tear above aortic valve
Atherosclerotic Aneurysm: Gross, external natural color very good example of an atherosclerotic thoracic aorta aneurysm with focal rupture
Atherosclerotic Aneurysm: Gross, excellent color, opened thoracic segment of aorta with two saccular atherosclerotic ruptured aneurysms

Atherosclerotic Aneurysm: Gross, an excellent example, natural color, external view of typical thoracic aortic aneurysms
Atherosclerotic Aneurysm: Gross unopened lesion natural color
Dissecting Aneurysm: Gross dissection first portion of arch fixed specimen (a good example)

Dissecting Aneurysm: Gross, rather well shown dissection in first portion of the aortic arch
Dissecting Aneurysm: Gross, rather well shown dissection in first portion of the aortic arch
Dissecting Aneurysm: Gross, an excellent example of type I lesion

Dissecting Aneurysm: Gross, external view, an excellent example
Dissecting Aneurysm: Gross, Type I shows false channel
Dissecting Aneurysm: Gross, opened to show false channel (good example)

Atherosclerotic Aneurysm: Gross, very good example of ruptured thoracic segment
Dissecting Aneurysm: Gross, coagulum of blood in false channel
Dissecting Aneurysm: Gross, aortic valve area dissection (well shown, typical lesion)

Abdominal Aneurysm Ruptured: Gross (good example) opened kidneys in marked place, atherosclerosis in lower thoracic aorta
Abdominal Aneurysm: Gross, (very good example) opened lesion with mural thrombus
Dissecting Aneurysm: Gross, large tear in first portion of aortic arch, annuloaortic ectasis

Dissecting Aneurysm: Gross, external view of heart and first portion of aortic arch, annuloaortic ectasia, hemorrhage beneath adventitia is evidence of dissection
Atherosclerotic Aneurysm Infected: Gross, infected abdominal aneurysm at superior suture line with rupture into duodenum
Atherosclerotic Aneurysm: Gross, cross sections of repaired aneurysm showing Dacron graft and old mural thrombus. A nice example of fibrin layer in graft

Ruptured Syphilitic Aneurysm
Dissecting Aneurysm in a patient with Marfan's syndrome
Traumatic Aneurysm

Kidney: Arteriosclerosis: Gross aorta with well shown renal artery containing large plaque and kidney with multiple cortical scars and atrophy also abdominal aorta aneurysm with mural thrombus (excellent example for renovascular hypertension)
Dissecting Aneurysm: Gross, fixed tissue, descending thoracic segment dissection opened to show the false channel. The true surface is also visible
Aneurysm: Gross, ruptured thoracic aorta aneurysm, in situ lower thoracic portion (probably due to atherosclerosis)

Abdominal Aneurysm Graft Repair: Gross, natural color, close-up view, an excellent example of Dacron graft that has been in place for years with pseudointima and atherosclerosis
Dacron Graft: Gross, close-up Dacron graft to repair aneurysm. Aorta completely covered with a calcified and ulcerated plaque with small mural thrombi (an excellent depiction of proximal suture line)
Dissecting Aneurysm: Gross natural color descending aorta opened into false channel

Abdominal Aneurysm: Gross, natural color, unopened specimen with about a six centimeter aneurysm between renals and bifurcation (a very good example of opened aneurysm)
Abdominal Aneurysm: Gross, natural color, an opened aneurysm showing quite well laminated thrombus
Atherosclerosis with Mural Thrombi: Gross, natural color, a nice photo of descending thoracic aorta with extensive ulcerated plaques and mural thrombi in distal portion. The case also has an abdominal aneurysm

Pseudoaneurysm Ruptured Into Duodenum: Gross natural color aorta and duodenum with arrow pointing to rupture point of aortobifemoral bypass pseudoaneurysm rupture and another in duodenum a very good demonstration of this very well known complication of aortic prostheses
Abdominal Aneurysm: Gross, natural color, large aneurysm opened showing sessile calcified plaques with no mural thrombus. Lesion extends from renal arteries to the bifurcation (the same lesion seen externally with focus of rupture)
Abdominal Aneurysm Ruptured: Gross, natural color, external view with large area of apparent rupture. Aorta is opened to show this aneurysm)

Abdominal Aneurysm: Gross, natural color, unopened large and quite typical aneurysm extending from below renal arteries to bifurcation
Abdominal Aneurysm: Gross, natural color, opened aneurysm with well shown and typical laminated thrombus (external view)
Aortobifemoral Prosthesis: Gross, natural color, nice dissection showing Dacron prosthesis replacing abdominal segment of aorta with portion of atherosclerotic aneurysm with renal arteries and kidneys

Aortobifemoral Prosthesis: Gross natural color close-up view of nicely dissected prosthesis extending from below renals to common iliac arteries portion of atherosclerotic aneurysm behind prosthesis
Dissecting Aneurysm: Gross natural color close-up view of aortic valve and proximal aortic arch with ruptured intima rather good illustration of this lesion
Syphilitic Aneurysm: Gross natural color rather a close-up view and outstanding photo of aneurysm ruptured into the left main stem bronchus

Syphilitic Aneurysm: Gross natural color typical tree barking in aorta aneurysm opening is seen in which is a thrombus aneurysm ruptured into left main stem bronchus (shown very well)
Dissecting Aneurysm Chronic: Gross natural color first portion of aortic arch with intimal rent well shown with healed margins and view into false channel that shows a surface looking like atherosclerosis which is known to develop in a chronic dissection
Dissecting Aneurysm Chronic: Gross, natural color, closer view of the previous one (a very good example)

References

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 * Increased activity of certain enzymes causes degradation of [[elastin]] and [[collagen]] in the arteries. This leads to loss of elasticity, weakens the aortic wall and causes it to dilate.
 * Moreover, the part of aorta below the origin of renal arteries has less amount of [[elastin]] compared to [[collagen]], accounting for increased frequency of aneurysms in this area.
+*In patients with Marfan syndrome there is a defect on chromosome 15 that is associated with impaired [[fibrillin]] synthesis, which is the core protein of [[microfibrils]]. Frequently among patients with [[Marfan's syndrome]] there is [[cystic medial degeneration]].
 ===Hemodynamic factors===