Abstract
The management of patients with aortic disease that involves the ascending aorta, the aortic arch, and the descending aorta represent a surgical challenge. Open surgical repair remains the gold standard for aortic arch pathologies. However, this operation requires a cardiopulmonary bypass and a period of profound hypothermia and circulatory arrest, which carries a substantial rate of mortality and morbidity. For these reasons, hybrid arch repair that involves a combination of open surgery with endovascular aortic stent graft placement has been introduced as a therapeutic alternative for those patients deemed unfit for open surgical procedures. Hybrid repair requires varying degrees of invasiveness and can be performed as a single-stage procedure or as a two-stage procedure. The choice of the technique is multifactorial, depending on the characteristics of the diseased arch with regard to position of the stent graft proximal landing zone, patient fitness and comorbid status, as well as surgical expertise and hospital facilities. Among the evolving hybrid procedures is the so-called “frozen” or stented elephant trunk technique. Adapted from the classical elephant trunk technique, this approach facilitates the repair of a concomitant aortic arch and proximal descending aortic aneurysms in a single stage under circulatory arrest. This technique is increasingly being used to treat extensive thoracic aortic disease and has shown promising results.
Highlights
Open surgical repair of the aortic arch is a complex procedure, requiring cardiopulmonary bypass, hypothermic circulatory arrest and supra-aortic vessels reconstruction.Despite good results reported by centers performing a high volume of this procedure, open arch repair still presents a significant morbidity and mortality [1]
Hybrid repair that involves a combination of open surgery with endovascular aortic stent graft placement has been introduced as a therapeutic alternative for those patients deemed unfit for open surgical procedures [3]
The supra-aortic vessels debranching (SaVD) is referred to the last aortic zone that has been excluded and follow the Ishimaru classification of zones of the aortic arch [5]: Zone 0 involves the proximal ascending aorta to the brachio-chepalic trunk (BCT) origin; Zone 1 is distal to the BCT but proximal to the left common carotid artery (LCCA); Zone 2 is distal to the LCCA
Summary
Open surgical repair of the aortic arch is a complex procedure, requiring cardiopulmonary bypass, hypothermic circulatory arrest and supra-aortic vessels reconstruction. The presence of atherosclerotic disease in the arch presents a significant stroke risk during endovascular manipulation, and the proximity of the aortic valve and coronary arteries pose particular problems in more proximal pathology For these reasons, hybrid repair that involves a combination of open surgery with endovascular aortic stent graft placement has been introduced as a therapeutic alternative for those patients deemed unfit for open surgical procedures [3]. Type III Hybrid Repair consists of frozen elephant trunk procedure with surgical reconstruction of the aortic arch and revascularization of the branching vessels of the aortic arch This procedure is reserved for patients with extensive aortic lesions involving the ascending aorta, transverse arch and the descending thoracic aorta. In this review we will discuss surgical concepts and results of these techniques
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