Department of Otolaryngology-Head and Neck Surgery, MetroHealth Medical Center, Case Western Reserve University School of Medicine, Cleveland, Ohio.
Department of General Surgery, Cleveland Clinic Foundation, Cleveland, Ohio.
Laryngoscope. 2020 Apr;130(4):967-973. doi: 10.1002/lary.28184. Epub 2019 Jul 23.
OBJECTIVES/HYPOTHESIS: Standard stimulating methods using square waves do not appropriately restore physiological control of individual intrinsic laryngeal muscles (ILMs). To further explore our earlier study of evoked orderly recruitment by quasitrapezoidal (QT) currents, we integrated the contribution of the cricothyroideus (CT) with attention to mutual activation in an additional patient, based on recent studies of appropriate responses via strict recurrent laryngeal nerve (RLN) stimulation.
Basic science study.
The patient received functional electrical stimulation (FES) with QT pulses at 5 Hz, 60 to 2,000 μAmp, 100 to 500 μs pulse width, 0 to 500 μs decay. Ipsilateral electromyography (EMG) responses were calculated using the average maximum amplitude, area under the curve, and the root mean square of the rectified amplitude waveforms. The thyroarytenoideus (TA), posterior cricoarytenoideus (PCA), lateral cricothyroideus (LCA), and the CT were each interrogated via two monopolar electrodes, values were recorded in MATLAB, exported to Excel, and analyzed. Individual and mutual recruitment configurations and activation delays with stimulation were explored using multiple regression and exploration factor analyses.
A total of 868 EMG data points based on 18 trials and up to 11 subtrials were captured from each of the four ILMs. Various combinations of pulse amplitude, pulse width, and exponential decay were found to produce significant (P ≤ .001) individual ILM responses. CT mirrored the LCA, whereas the TA and PCA exhibited separate interactions along shared trajectories in a three-dimensional space.
FES calibrated to individual and coupled ILMs offers promise for restoring normal and pathological contraction patterns via strict RLN stimulation.
5 Laryngoscope, 130:967-973, 2020.
目的/假设:使用方波的标准刺激方法不能适当恢复个体内在喉肌(ILM)的生理控制。为了进一步探索我们之前关于使用拟梯形(QT)电流引发有序募集的研究,我们基于最近通过严格喉返神经(RLN)刺激获得的适当反应的研究,整合了环甲肌(CT)的贡献,并关注相互激活,在另一位患者中进行了研究。
基础科学研究。
患者接受 QT 脉冲的功能性电刺激(FES),频率为 5 Hz,电流强度为 60 至 2000 μAmp,脉冲宽度为 100 至 500 μs,衰减时间为 0 至 500 μs。使用平均最大幅度、曲线下面积和整流幅度波形的均方根计算同侧肌电图(EMG)响应。通过两个单极电极分别检查甲状腺肌(TA)、后环杓肌(PCA)、外侧环甲肌(LCA)和 CT,在 MATLAB 中记录数值,导出到 Excel 并进行分析。使用多元回归和探索性因素分析探索刺激时的个体和相互募集配置和激活延迟。
从四个 ILM 中的每一个中总共捕获了 18 次试验和最多 11 次子试验的 868 个 EMG 数据点。发现各种脉冲幅度、脉冲宽度和指数衰减组合可产生显著的(P ≤.001)个体 ILM 响应。CT 反映了 LCA,而 TA 和 PCA 则在三维空间中沿着共享轨迹表现出单独的相互作用。
针对个体和耦合 ILM 进行校准的 FES 通过严格的 RLN 刺激为恢复正常和病理收缩模式提供了希望。
5 Laryngoscope,130:967-973,2020。
