A systematic review of spinal cord ischemia prevention and management after open and endovascular aortic repair

Objective: Spinal cord ischemia (SCI) is one of the most devastating complications after descending thoracic aortic (DTA) and thoracoabdominal aortic (TAA) repairs. Patients who develop SCI have a poor prognosis, with mortality rates reaching 75% within the first year after surgery. Many factors have been shown to increase the risk of this complication, including the extent of TAA repair, length of aortic and collateral network coverage, embolization, and reduced spinal cord perfusion pressure. As a result, a variety of treatment strategies have been developed. We aimed to provide an up-to-date review of SCI rates with associated treatment algorithms from open and endovascular DTA and TAA repair. Methods: Using PRISMA (preferred reporting items for systematic reviews and meta-analyses) guidelines, a literature review with the MeSH (medical subject headings) terms "spinal cord ischemia," "spinal cord ischemia prevention and mitigation strategies," "spinal cord ischemia rates," and "spinal cord infarction" was performed in the Cochrane and PubMed databases to find all peer-reviewed studies of DTA and TAA repair with SCI complications reported. The search was limited to 2012 to 2021 and English-language reports. MeSH subheadings, including diagnosis, complications, physiopathology, surgery, mortality, and therapy, were used to further restrict the included studies. Studies were excluded if they were not of humans, had not pertained to SCI after DTA or TAA operative repair, and if the study had primarily discussed neuromonitoring techniques. Additionally, studies with <40 patients or limited information regarding SCI protection strategies were excluded. Each study was individually reviewed by two of us (S.L. and A.D.) to assess the type and extent of aortic pathology, operative technique, SCI protection or mitigation strategies, rates of overall and permanent SCI symptoms, associations with SCI on multivariate analysis, and mortality. Results: Of the 450 studies returned by the MeSH search strategy, 41 met the inclusion criteria and were included in the final analysis. For the endovascular DTA repair patients, the overall SCI rates ranged from 0% to 10.6%, with permanent SCI symptoms ranging from 0% to 5.1%. The rate of overall SCI after endovascular and open TAA repair was 0% to 35%. The permanent SCI symptom rate was reported by only one study of open repair at 1.1%. The permanent SCI symptom rate after endovascular TAA repair was 2% to 20.5%. Conclusions: The present review has provided an up-to-date review of the current rates of SCI and the prevention and mitigation strategies used during DTA and TAA repair. We found that a multimodal approach, including a bundled institutional protocol, staging of multiple repairs, preservation of the collateral blood flow network, augmented spinal cord perfusion, selective cerebrospinal fluid drainage, and distal aortic perfusion during open TAA repairs, appears to be important in reducing the risk of SCI.