利用耳蜗内电描记术识别 Slim 耳蜗内电极尖端折叠
Identifying Slim Modiolar Electrode Tip Fold-Over With Intracochlear Electrocochleography.
机构信息
Department of Otolaryngology-Head and Neck Surgery, Washington University School of Medicine, St. Louis, Missouri, USA.
出版信息
Otolaryngol Head Neck Surg. 2024 Apr;170(4):1124-1132. doi: 10.1002/ohn.587. Epub 2023 Nov 29.
OBJECTIVE
To evaluate the predictive value of intracochlear electrocochleography (ECochG) for identifying tip fold-over during cochlear implantation (CI) using the slim modiolar electrode (SME) array.
STUDY DESIGN
Prospective cohort study.
SETTING
Tertiary referral center.
METHODS
From July 2022 to June 2023, 142 patients, including adults and children, underwent intracochlear ECochG monitoring during and after SME placement. Tone-bursts were presented from 250 Hz to 2 kHz at 108 to 114 dB HL. A fast Fourier transform (FFT) allowed for frequency-specific evaluation of ECochG response. ECochG patterns during insertion and postinsertion were evaluated using sensitivity and specificity analysis to predict tip fold-over. Intraoperative plain radiographs served as a reference standard.
RESULTS
Fifteen tip fold-over cases occurred (10.6%) with significant ECochG response (>2 µV). Sixty-one cases without tip fold-over occurred (43.0%) with significant ECochG response. All tip fold-overs had both a nontonotopic postinsertion sweep and nonrobust active insertion pattern. No patients with robust insertion or tonotopic sweep patterns had tip fold-over. Sensitivity of detecting tip fold-over when having both nonrobust insertion and nontonotopic sweep patterns was 100% (95% confidence inteval [CI] 78.2%-100%), specificity was 68.9% (95% CI 55.7%-80.1%), and the overall accuracy was 72.0% (95% CI 60.5%-81.7%).
CONCLUSION
Intracochlear ECochG monitoring during cochlear implantation with the SME can be a valuable tool for identifying properly positioned electrode arrays. In cases where ECochG patterns are nonrobust on insertion and nontonotopic for electrode sweeps, there may be a concern for tip fold-over, and intraoperative imaging is necessary to confirm proper insertion.
目的
评估在使用 slim 耳蜗内电极 (SME) 阵列进行耳蜗植入 (CI) 时,耳蜗内电 CochG(ECochG)对识别尖端折叠的预测价值。
研究设计
前瞻性队列研究。
设置
三级转诊中心。
方法
从 2022 年 7 月至 2023 年 6 月,142 例成人和儿童患者在 SME 放置期间和之后进行了耳蜗内 ECochG 监测。从 250 Hz 到 2 kHz 以 108 至 114 dB HL 呈现 Tone-bursts。快速傅里叶变换(FFT)允许对 ECochG 响应进行频率特异性评估。使用敏感性和特异性分析评估插入和插入后的 ECochG 模式,以预测尖端折叠。术中平片作为参考标准。
结果
15 例尖端折叠病例(10.6%)出现明显的 ECochG 反应(>2 µV)。61 例无尖端折叠病例(43.0%)出现明显的 ECochG 反应。所有尖端折叠均有非 tonotopic 插入后扫描和非稳健主动插入模式。没有具有稳健插入或 tonotopic 扫描模式的患者出现尖端折叠。当同时具有非稳健插入和非 tonotopic 扫描模式时,检测尖端折叠的敏感性为 100%(95%置信区间 [CI] 78.2%-100%),特异性为 68.9%(95% CI 55.7%-80.1%),总体准确性为 72.0%(95% CI 60.5%-81.7%)。
结论
使用 SME 进行耳蜗植入时的耳蜗内 ECochG 监测可以成为识别正确定位电极阵列的有价值的工具。在插入时 ECochG 模式不稳健且电极扫描时非 tonotopic 的情况下,可能存在尖端折叠的问题,需要进行术中成像以确认正确插入。
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