Mui Takahiro, Shigematsu Hideki, Takatani Tsunenori, Ikejiri Masaki, Kawasaki Sachiko, Hayashi Hironobu, Kawaguchi Masahiko, Tanaka Yasuhito
Department of Orthopaedic Surgery, Nara Medical University, 840 Shijo-cho, Kashihara City, Nara, 634-8522, Japan.
Department of Orthopaedic Surgery, Nara Medical University, 840 Shijo-cho, Kashihara City, Nara, 634-8522, Japan.
Spine J. 2024 Sep;24(9):1635-1644. doi: 10.1016/j.spinee.2024.04.015. Epub 2024 Apr 27.
Transcranial electrical stimulation motor-evoked potentials (Tc-MEPs) are the current trend and are important in preventing intraoperative neurological deficits. Posttetanic Tc-MEPs (p-MEP) can augment the amplitudes of compound muscle active potentials (CMAPs), especially in the case of insufficient conventional Tc-MEPs (c-MEP).
To retrospectively investigate pre- and intraoperative factors necessitating p-MEP monitoring and to examine changes in the success rates of baseline Tc-MEP monitoring before and after tetanic stimulation in patients with such factors.
Retrospective observational study.
Patients (n=184) who underwent spinal surgery with Tc-MEP monitoring in our department between August 2020 and July 2022.
Manual muscle testing (MMT) scores were calculated to identify patients with preoperative motor deficits. c-MEP and p-MEP amplitudes were recorded from the defined muscles.
We compared preoperative and intraoperative factors between the c-MEP and p-MEP groups (study 1). In cases where the factors were identified, we investigated the success rate of the baseline MEP measurement of each muscle before and after tetanic stimulation (study 2).
One hundred fifty-seven patients were included. Of those, 87 showed sufficient CMAPs with c-MEP. Meanwhile, 70 needed p-MEP because of insufficient CMAPs. In univariate analysis, cervical/thoracic surgery (p<.001), preoperative MMT 3 or below (p=.009), shorter duration of illness (p=.037), previous cerebrovascular disease (p=.014), and dialysis (p=.031) were significantly associated with p-MEP group. Preoperative MMT 3 or below was the only factor requiring p-MEP (odds ratio, 3.34; 95% confidence interval, 1.28-8.73, p=.014) in multivariate analysis. In the p-MEP group, 24 patients had preoperative motor deficits; 16 patients with complete data were included in the analysis (study 2). The success rates of MEP monitoring before and after tetanic stimulation of the entire lower-extremity muscles were 42.7 and 57.3%, respectively (p<.001). The success rates for each muscle before and after tetanic stimulation were abductor pollicis brevis: 81.3% and 96.9%, tibialis anterior: 34.4% and 50.0%, gastrocnemius: 25% and 40.6%, and abductor hallucis: 68.8% and 81.3%, respectively. No significant differences were observed in success rates for any of the muscles.
Patients with preoperative MMT 3 or below highly needed p-MEP. The success rate of baseline MEP monitoring increased with tetanic stimulation, even in patients with preoperative motor deficits. We believe that p-MEP monitoring can result in reliable CMAP recording, especially in cases of preoperative motor deficits with MMT scores of 3 or below.
经颅电刺激运动诱发电位(Tc-MEPs)是当前的研究趋势,对预防术中神经功能缺损具有重要意义。强直后经颅电刺激运动诱发电位(p-MEPs)可增强复合肌肉动作电位(CMAPs)的波幅,尤其是在传统经颅电刺激运动诱发电位(c-MEPs)不足的情况下。
回顾性研究需要p-MEP监测的术前和术中因素,并检查存在这些因素的患者在强直刺激前后基线Tc-MEP监测成功率的变化。
回顾性观察研究。
2020年8月至2022年7月期间在我科接受Tc-MEP监测的脊柱手术患者(n = 184)。
计算徒手肌力测试(MMT)评分以确定术前存在运动功能缺损的患者。记录指定肌肉的c-MEP和p-MEP波幅。
我们比较了c-MEP组和p-MEP组的术前和术中因素(研究1)。在确定存在这些因素的情况下,我们调查了强直刺激前后每块肌肉基线MEP测量的成功率(研究2)。
纳入157例患者。其中,87例c-MEP的CMAPs充足。同时,70例因CMAPs不足需要p-MEP。单因素分析显示,颈椎/胸椎手术(p <.001)、术前MMT为3或更低(p =.009)、病程较短(p =.037)、既往脑血管疾病(p =.014)和透析(p =.031)与p-MEP组显著相关。多因素分析显示,术前MMT为3或更低是唯一需要p-MEP的因素(比值比,3.34;95%置信区间,1.28 - 8.73,p =.014)。在p-MEP组中,24例患者术前存在运动功能缺损;16例有完整数据的患者纳入分析(研究2)。整个下肢肌肉强直刺激前后MEP监测的成功率分别为42.7%和57.3%(p <.001)。每块肌肉强直刺激前后的成功率分别为:拇短展肌:81.3%和96.9%,胫骨前肌:34.4%和50.0%,腓肠肌:25%和40.6%,拇展肌:68.8%和81.3%。任何一块肌肉的成功率均未观察到显著差异。
术前MMT为3或更低的患者非常需要p-MEP。即使是术前存在运动功能缺损的患者,强直刺激也能提高基线MEP监测的成功率。我们认为,p-MEP监测可以获得可靠的CMAP记录,尤其是在术前MMT评分为3或更低的运动功能缺损病例中。
