Modified Preloaded System for Renal Arteries in Fenestrated Endografting

Brief Summary

Detailed Description

Thoracoabdominal aortic aneurysm (TAAA) and complex abdominal aortic aneurysms (AAA) represents an evolving pathology that involves to varying degrees both the descending thoracic aorta and the abdominal aorta. These aneurysms, according to their localization and involvement in the thoracic and abdominal aorta, have been classified according to Crawford into 4 groups (I-IV) for the TAAA and in pararenal/juxtarenal (p/j-AAA) for AAA when a standard endovascular repair is not possible. The prevalence of these pathologies is currently not well known, but high mortality rates are reported in the population carrying TAAAs and j/p-AAAs that have not undergone surgical treatment, most of which are due to aortic rupture. Among of the main complications related to TAAA endovascular repair and to complex AAA we can account spinal cord ischemia, lower leg ischemia and logo-operative times, that all can contribute to decrease overall technical and clinical success. A particular subgroup of TAAAs is represented by post-dissection thoracoabdominal aneurysms (PDTAA), which represents an evolving pathology and one of the main chronic complications in outcomes of acute chronic dissection. In these particular subset of patients, as well as in patient with highly calcified and hostile accesses, the risk of post-operative spinal cord ischemia is higher and the availability of both iliac access navigability is not always possible, leading to technical failure, intraoperative complications and need for adjunctive invasive procedures in high surgical risk patients. The fenestrated and branched endoprostheses (F/B-EVAR) represent a technology that is now firmly used for the treatment of thoraco-abdominal degenerative aneurysmal pathology in superspecialized centers. Recently, the technology with F/B-EVAR has also been used in the treatment of PDTAA, IMH and PAU, showing satisfactory results. This experience has been carried out in some centers, in the absence, however, of a wider and generalized experience. All these type of endografts are custom-made devices, requiring therefore a lading time for production and delivering before being implanted into the specific patient. In order to overcome main drawbacks of these procedures, such us long operating time due to fenestrations and vessels cannulation, to avoid bilateral lower limbs ischemia due to large bore introducer sheaths and to accomplish successful delivery even in patient without navigability of both iliac accesses, a modified preloaded system for renal arteries has been developed by Cook (Cook Medical, Bloomington, IN, USA). The aim of the study is to evaluate in a prospective single center study observational setting, the outcomes, safety and efficacy of the modified preloaded system for renal arteries developed by Cook Medical with bi-port handle system in the field of fenestrated endografting during the routine treatment of thoraco-abdominal and paravisceral abdominal aortic pathologies.

Primary Outcomes

Secondary Outcomes

• Cardiovascular Adverse Events(Within the first 30-days from the procedure.)
• Neurologic Adverse Events(Within the first 30-days from the procedure.)
• Rate of early reintervention(Within the first 30-days from the procedure.)
• Overall Survival(Through study completion, an average of 1 year.)
• Freedom from Vessel Instability(Through study completion, an average of 1 year.)
• Vessel Instability(Within the first 30-days from the procedure.)
• Freedom from Major Endoleaks(Through study completion, an average of 1 year.)
• Aorta Related Survival(Through study completion, an average of 1 year.)
• Freedom from reintervention(Through study completion, an average of 1 year.)