Harshal A Shah, Adrian Chen, Ross Green, Roee Ber, Randy S D'Amico, Daniel M Sciubba, Sheng-Fu Larry Lo, Justin W Silverstein
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引用次数: 0
Abstract
Purpose: Direct-wave (D-wave) neuromonitoring is a direct measure of corticospinal tract integrity that detects potential injury during spinal cord surgery. Epidural placement of electrodes used for D-wave measurements can result in high electrical impedances resulting in substantial signal noise that can compromise signal interpretation. Subdural electrode placement may offer a solution.
Methods: Medical records for consecutive patients with epidural and subdural D-wave monitoring were reviewed. Demographic and clinical information including preoperative and postoperative motor strength were recorded. Neuromonitoring charts were reviewed to characterize impedances and signal amplitudes of D-waves recorded epidurally (before durotomy) and subdurally (following durotomy). Nonparametric statistics were used to compare epidural and subdural D-waves.
Results: Ten patients (50% women, median age 50.5 years) were analyzed, of which five patients (50%) were functionally independent (modified McCormick grade ≤ II) preoperatively. D-waves were successfully acquired by subdural electrodes in eight cases and by epidural electrodes in three cases. Subdural electrode placement was associated with lower impedance values ( P = 0.011) and a higher baseline D-wave amplitude ( P = 0.007) relative to epidural placement. No association was observed between D-wave obtainability and functional status, and no adverse events relating to subdural electrode placement were encountered.
Conclusions: Subdural electrode placement allows successful D-wave acquisition with accurate monitoring, clearer waveforms, and a more optimal signal-to-noise ratio relative to epidural placement. For spinal surgeries where access to the subdural compartment is technically safe and feasible, surgeons should consider subdural placement when monitoring D-waves to optimize clinical interpretation.
目的:直接波(D 波)神经监测是一种直接测量皮质脊髓束完整性的方法,可检测脊髓手术中的潜在损伤。硬膜外放置用于 D 波测量的电极会导致高电阻抗,从而产生大量信号噪声,影响信号解读。硬膜下电极放置可能是一种解决方案:方法:回顾了接受硬膜外和硬膜下 D 波监测的连续患者的病历。记录了人口统计学和临床信息,包括术前和术后的运动强度。审查神经监测图表,以确定硬膜外(硬脑膜切开术前)和硬脑膜下(硬脑膜切开术后)记录的 D 波的阻抗和信号幅度。非参数统计用于比较硬膜外和硬膜下 D 波:对 10 名患者(50% 为女性,中位年龄为 50.5 岁)进行了分析,其中 5 名患者(50%)术前功能独立(改良麦考密克分级≤ II)。硬膜下电极成功采集到D波的有8例,硬膜外电极成功采集到D波的有3例。与硬膜外电极置入相比,硬膜下电极置入与阻抗值较低 ( P = 0.011) 和基线 D 波振幅较高 ( P = 0.007) 相关。D波获得性与功能状态之间没有关联,也没有发生与硬膜下电极置入有关的不良事件:硬膜下电极置入可成功获取 D 波,与硬膜外置入相比,D 波监测更准确、波形更清晰、信噪比更理想。对于技术上安全可行且可进入硬膜下腔的脊柱手术,外科医生在监测 D 波时应考虑硬膜下置入,以优化临床解读。
期刊介绍:
The Journal of Clinical Neurophysiology features both topical reviews and original research in both central and peripheral neurophysiology, as related to patient evaluation and treatment.
Official Journal of the American Clinical Neurophysiology Society.
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