Cannula Placement for Cerebral Protection Without Circulatory Arrest in Patients Undergoing Hemiarch Aortic Aneurysm Repair

This paper addresses clinical controversies and uncertainties regarding thoracic aortic aneurysm and its treatment. 1) Estimating true aortic size is confounded by obliquity, asymmetry, and noncorresponding sites: both echocardiography and computed tomography/magnetic resonance imaging are necessary for complete assessment. 2) Epidemiology of thoracic aortic aneurysm. There has been a bona fide increase in incidence of aortic aneurysm making aneurysm disease the 18th most common cause of death. 3) Aortic growth rate. Although a virulent disease, thoracic aortic aneurysm is an indolent process. The thoracic aorta grows slowly-0.1 cm/year. 4) Evidence-based intervention criteria. It is imperative to extirpate the thoracic aorta before rupture or dissection occurs; surgery at 5.0- to 5.5-cm diameter will prevent most adverse natural events. Symptomatic (painful) aneurysms must be resected regardless of size. 5) Development of nonsize criteria. Mechanical properties of the aorta deteriorate at the same 6 cm at which dissection occurs; elastic properties of the aorta may soon become useful intervention criteria. 6) Medical treatment of aortic aneurysm. Medical treatment is of unproven value, even beta-blockers and angiotensin-receptor blockers. 7) A genetic disease. Even non-Marfan aneurysms have a strong genetic basis. 8) Need for biomarkers. Virulent but silent, TAA cries out for a biomarker that can predict the onset of adverse events. Pathophysiologic understanding has led to identification of promising biomarkers, especially metalloproteinases. 9) Endovascular therapy for aneurysms. Endovascular therapy has burgeoned, despite the fact that the EVAR-2, DREAM, and INSTEAD trials showed no benefit at mid-term over medical or conventional surgical therapy. We must avoid "irrational exuberance." 10) Inciting events for acute aortic dissection. Recent evidence shows that dissections are preceded by a specific severe exertional or emotional event. 11) "Silver lining" of aortic disease. Proximal aortic root disease seems to protect against arteriosclerosis. Copyright 2010 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.

Thoracic aortic aneurysm (TAA) is an increasingly recognized condition that is often diagnosed incidentally. This review discusses ten of the most relevant epidemiological and clinical secrets of this disease; (1) the difference in pathogenesis between ascending and descending TAAs. TAAs at these two sites act as different diseases, which is related to the different embryologic origins of the ascending and descending aorta. (2) The familial pattern and genetics of thoracic aneurysms. Syndromic TAAs only explain 5% of the pattern of inheritance. (3) The effect of female sex on TAA growth and outcome. Females have been found to have worse outcomes compared to males. (4) Guilt by Association. TAAs are associated with abdominal aortic aneurysms, intracranial aneurysms, bicuspid aortic valve, and inflammatory disorders. (5) Natural history of TAAs. Important findings have been made regarding the expansion rate (in relation to familial pattern, location and size), and also regarding the risk of rupture or dissection. (6) The aortic size paradox. Size only is not a sufficient predictor of risk of dissection. (7) Biomarker void. Although many serum biomarkers have been studied, imaging remains the only reliable method for diagnosis and follow-up. (8) Indications for repair. Decisions are made depending on symptoms, location, size, and familial patterns. (9) Types of repair. Both open and endovascular repair options are available for certain TAAs. (10) Medical treatment. The efficacy of prescribing beta blockers, angiotensin converting enzyme inhibitors or angiotensin receptor blockers remains dubious.