Optimum stimulus for eliciting masseter vestibular-evoked myogenic potential: a comparative exploration with three different acoustic stimuli

Aishwarya Nagarajan, Vinayagar Pazhani Thirusangu, Gunasekaran Mohanlal, Sujeet Kumar Sinha
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Abstract

To compare the EMG rectified amplitude, absolute latencies, interpeak interval, and Interaural asymmetry parameters of masseter vestibular-evoked myogenic potential (mVEMP) elicited using clicks, 500 Hz tone bursts, and 500 Hz NB CE-chirps. Twenty-five young healthy adults in the age range of 18–27 years participated for the study. mVEMP was recorded using three different acoustic stimuli i.e., clicks, 500 Hz tone bursts, and 500 Hz NB CE-chirps. mVEMP was recorded at an intensity of 125 dB peSPL with 5.1/s repetition rate. The potentials were recorded ipsilaterally using zygomatic electrode montage and were filtered between 0.1 and 3000 Hz. EMG rectification of the responses was made prior to analysis. The latencies of P1 and N1 were significantly earlier for chirps then followed by click and tone bursts. The EMG rectified amplitude was significantly larger for the potentials obtained using chirps followed by tone bursts and then the clicks. Masseter VEMP obtained using chirps had significantly larger interpeak interval than tone bursts and clicks. The mean amplitude asymmetry ratio was greater in the potentials obtained using chirps than the other two stimuli. The present study reveals that 500 Hz NB CE-chirps tend to produce mVEMP with larger response amplitude and earlier latencies and thus are considered better and constructive stimuli compared to clicks and tone bursts.
激发颌间肌前庭诱发肌原电位的最佳刺激:三种不同声音刺激的比较研究
比较使用单击、500 Hz音爆和500 Hz NB CE-chirps引起的颌间肌前庭诱发肌源性电位(mVEMP)的肌电信号整流振幅、绝对潜伏期、峰间时间间隔和耳内不对称参数。mVEMP 在 125 dB peSPL 的强度和 5.1/s 的重复率下记录。使用颧电极单体记录同侧电位,并在 0.1 至 3000 Hz 之间进行滤波。分析前对反应进行 EMG 整流。P1 和 N1 的潜伏期明显早于鸣叫,其次是单击和音爆。使用鸣音获得的肌电图整流振幅明显更大,然后是音爆,最后是单击。使用 "啾啾 "声获得的肌肉肌电图的峰间间隔明显大于 "嗒嗒 "声和 "嗒嗒 "声。使用 "啾啾 "声获得的电位的平均振幅不对称比大于其他两种刺激。本研究表明,500 Hz NB CE-chirps往往能产生反应幅度更大、潜伏期更早的mVEMP,因此与单击声和音爆相比,被认为是更好的建设性刺激。
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