Multidisciplinary Approach to Direct Segmental Artery Revascularization to Prevent Spinal Cord Ischemia Associated With Endovascular Thoracoabdominal Aortic Repair

Purpose: Despite advances in complex endovascular aortic repair techniques, spinal cord ischemia (SCI) remains a devastating complication following endovascular thoracoabdominal aortic repairs. Novel strategies to preserve key intercostal/lumbar arteries have been described. We report our early results of patients who underwent direct intercostal/lumbar artery revascularization using endovascular incorporation of fenestrations/branches or extra-anatomic approaches for fenestrated-branched endovascular aortic repairs (FBEVARs). Materials and Methods: A retrospective review of consecutive patients who underwent FBEVAR with intercostal/lumbar artery revascularization from 2018 to 2022 was performed. Patient characteristics, intraoperative details, and outcomes including SCI and branch occlusions were evaluated. Results: Among 317 patients who underwent FBEVAR during the study period, 12 patients were included. Aortic pathologies consisted of degenerative aneurysms (33%), postdissection aneurysms (33%), extensive penetrating aortic ulcers with intramural hematoma (25%), and visceral patch pseudoaneurysm (8%). Full thoracoabdominal coverage was required in 8 patients and supraceliac coverage >10 cm was required in 4. Nine patients received endovascular incorporation, including directional branches (5/9), unstented fenestrations (2/9), and stented fenestration (2/9). Three patients received extra-anatomic subcutaneous femoral-to-radicular artery bypass using a composite graft of polytetrafluoroethylene (PTFE) and venous conduit. Our institutional SCI prevention protocol, consisting of prophylactic cerebral spinal fluid drain (CSFD) for high-risk patients, hemodynamic augmentation, and oxygen supplementation, was followed. Prophylactic CSFD was placed in 9 patients. One patient had unsuccessful drain placement attempts. The other 2 patients had previous unsuccessful attempts at CSFD placement. Median number of target vessels for FBEVAR was 4 with fluoroscopy time 66 +/- 31 minutes, contrast usage 109 +/- 51 ml. There were no in-hospital mortalities. Tarlov grade II SCI (ASIA grade D) were seen in 2 patients (1 endovascular and 1 extra-anatomic bypass), which resolved before discharge. At mean follow-up of 472 +/- 447 days, 3 patients had thrombosed intercostal/lumbar branches (1 extra-anatomic bypass and 2 endovascular branches) with no new SCI symptoms. Conclusions: In patients at high risk for SCI undergoing FBEVAR, direct revascularization of an intercostal or lumbar artery is feasible using endovascular or extra-anatomic bypass approach. Further studies are planned to identify key contributing segmental arteries and optimization of revascularization strategies. Clinical Impact This study demonstrates the feasibility of Endovascular and extra-anatomic bypass to preserve segmental artery flow, aimed at reducing the risk of spinal cord ischemia during endovascular thoracoabdominal aortic repairs.