Multidisciplinary Approach to Direct Segmental Artery Revascularization to Prevent Spinal Cord Ischemia Associated With Endovascular Thoracoabdominal Aortic Repair.
Anand V Ganapathy, Alexander D DiBartolomeo, William J Mack, Gregory A Magee, Nadiya Atai, Joseph N Carey, Jonathan J Russin, Sukgu M Han
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引用次数: 0
Abstract
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.
期刊介绍:
The Journal of Endovascular Therapy (formerly the Journal of Endovascular Surgery) was established in 1994 as a forum for all physicians, scientists, and allied healthcare professionals who are engaged or interested in peripheral endovascular techniques and technology. An official publication of the International Society of Endovascular Specialists (ISEVS), the Journal of Endovascular Therapy publishes peer-reviewed articles of interest to clinicians and researchers in the field of peripheral endovascular interventions.