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Iatrogenic Spinal Cord Ischemia: A Patient Level Meta-analysis of 74 Case Reports and Series

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Date 2022 Feb 10
PMID 35141645
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Abstract

Background: We seek to characterize the features of iatrogenic spinal ischemia, determine which spinal levels are affected, and evaluate the efficacy of management strategies.

Methods: We performed a meta-analysis of case reports and series of spinal ischemia in the past 10 years. 343 full-length case reports and case series were screened against predefined inclusion/exclusion criteria. 89 patients were included for our final meta-analysis using PRISMA guidelines.

Results: Mean age of patients was 59.62 years (range: 9 months-88 years). 66% of all cases were male. Endovascular surgery (32.6%) and aortic surgery (36.0%) were most common causes of iatrogenic injury, followed by non-aortic surgery (32.6%), and non-surgical procedures (22.47%). A- and B-level ASIA Impairment was found in 66% of all patients. Rehabilitation was the most common management (49.44% of cases), followed by blood pressure management (40.45%). Non-aortic surgeries had the poorest overall outcomes (OR = 0.28,  = 0.016), whereas aortic and endovascular surgeries saw significant improvement in outcomes measured at discharge (OR = 2.6, OR = 2.3, respectively,  < 0.05). Therapeutic surgical infarctions were found to be associated with improved outcomes (OR = 5.33,  = 0.032). Ischemic injury to T4-T7, and T10 were associated with significantly poorer outcomes. Autonomic impairment was associated with a likelihood of infarction at T10 (OR = 4.54,  = 0.0183).

Conclusions: In this paper, we compare outcomes following iatrogenic spinal ischemia. We demonstrate the need for more comprehensive randomized controlled trials to test effective treatment strategies.

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References
1.
Gok M, Aydin E, Guneyli S, Akay A, Cinar C, Oran I . Iatrogenic Vascular Injuries Due to Spinal Surgeries: Endovascular Perspective. Turk Neurosurg. 2017; 28(3):469-473. DOI: 10.5137/1019-5149.JTN.19286-16.2. View

2.
Francis K . Physiology and management of bladder and bowel continence following spinal cord injury. Ostomy Wound Manage. 2008; 53(12):18-27. View

3.
Hnath J, Mehta M, Taggert J, Sternbach Y, Roddy S, Kreienberg P . Strategies to improve spinal cord ischemia in endovascular thoracic aortic repair: Outcomes of a prospective cerebrospinal fluid drainage protocol. J Vasc Surg. 2008; 48(4):836-40. DOI: 10.1016/j.jvs.2008.05.073. View

4.
Nissen T, Wynn R . The clinical case report: a review of its merits and limitations. BMC Res Notes. 2014; 7:264. PMC: 4001358. DOI: 10.1186/1756-0500-7-264. View

5.
Tan T, Rutges J, Marion T, Fisher C, Tee J . The Safety Profile of Intentional or Iatrogenic Sacrifice of the Artery of Adamkiewciz and Its Vicinity's Spinal Segmental Arteries: A Systematic Review. Global Spine J. 2020; 10(4):464-475. PMC: 7222674. DOI: 10.1177/2192568219845652. View