Abstract
BACKGROUND: Spinal cord infarction, though rare, represents a severe complication of neurointerventional procedures involving the posterior vertebrobasilar circulation. METHODS: We report the case of a 49-year-old male with acute basilar artery occlusion treated with staged endovascular therapy. Initial thrombectomy and balloon angioplasty successfully restored basilar artery flow. However, drug-coated balloon angioplasty for residual basilar artery stenosis on the second procedure triggered cervical spinal cord infarction. Based on this case, we conducted a systematic literature review to identify cases of spinal cord infarction following posterior circulation neurointerventions and investigate potential underlying mechanisms. RESULTS: Among the 18 included studies and our own case report, 28 cases was identified. The mean age of the patients was 59 years, with a male predominance. Clinical manifestations and outcomes varied considerably depending on the level and laterality of spinal cord involvement. Procedure-induced hemodynamic insufficiency in the vertebral artery during neurointerventional procedures was identified as the primary mechanism (17 cases, 60.7%), followed by perioperative direct spinal artery occlusion (6 cases, 21.4%). Other potential contributing factors included systemic hypotension, inadequate antithrombotic management, stent-induced microthrombosis, and prolonged procedural duration. CONCLUSION: Clinicians must recognize hemodynamic hypoperfusion of spinal cord arteries due to vertebral artery flow disruption as a critical mechanism of this complication. Preoperative assessment of cervical spinal cord hemodynamic vulnerabilities, intraprocedural utilization of small-diameter catheters, and prompt management of vertebral artery flow stagnation are all important measures to mitigate the risk of spinal cord infarction.