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利用镫骨速度估计主动式中耳植入物对圆窗机械刺激的效果。

Using Stapes Velocity to Estimate the Efficacy of Mechanical Stimulation of the Round Window With an Active Middle Ear Implant.

机构信息

Department of Physiology and Biophysics, University of Colorado School of Medicine.

出版信息

Otol Neurotol. 2023 Jun 1;44(5):e311-e318. doi: 10.1097/MAO.0000000000003859. Epub 2023 Mar 24.

DOI:10.1097/MAO.0000000000003859
PMID:36962010
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10175173/
Abstract

OBJECTIVE

To test a method to measure the efficacy of active middle ear implants when coupled to the round window.

METHODS

Data previously published in Koka et al. ( Hear Res 2010;263:128-137) were used in this study. Simultaneous measurements of cochlear microphonics (CM) and stapes velocity in response to both acoustic stimulation (forward direction) and round window (RW) stimulation (reverse direction) with an active middle ear implant (AMEI) were made in seven ears in five chinchillas. For each stimulus frequency, the amplitude of the CM was measured separately as a function of intensity (dB SPL or dB mV). Equivalent vibrational input to the cochlea was determined by equating the acoustic and AMEI-generated CM amplitudes for a given intensity. In the condition of equivalent CM amplitude between acoustic and RW stimulation-generated output, we assume that the same vibrational input to the cochlea was present regardless of the route of stimulation.

RESULTS

The measured stapes velocities for equivalent CM output from the two types of input were not significantly different for low and medium frequencies (0.25-4 kHz); however, the velocities for AMEI-RW drive were significantly lower for higher frequencies (4-14 kHz). Thus, for RM stimulation with an AMEI, stapes velocities can underestimate the mechanical input to the cochlea by ~20 dB for frequencies greater than ~4 kHz.

CONCLUSIONS

This study confirms that stapes velocity (with the assumption of equivalent stapes velocity for forward and reverse stimulation) cannot be used as a proxy for effective input to the cochlea when it is stimulated in the reverse direction. Future research on application of intraoperative electrophysiological measurements during surgery (CM, compound action potential, or auditory brainstem response) for estimating efficacy and optimizing device coupling and performance is warranted.

摘要

目的

测试一种测量经圆窗耦合的主动中耳植入物疗效的方法。

方法

本研究使用了 Koka 等人先前发表的数据(Hear Res 2010;263:128-137)。在五只南美栗鼠的七只耳朵中,同时测量了主动中耳植入物(AMEI)对声学刺激(正向)和圆窗(RW)刺激(反向)的耳蜗微音(CM)和镫骨速度。对于每个刺激频率,CM 的幅度分别作为强度(dB SPL 或 dB mV)的函数进行测量。通过使声学和 AMEI 产生的 CM 幅度在给定强度下相等,确定等效的振动输入到耳蜗。在声学和 RW 刺激产生的输出之间具有等效 CM 幅度的条件下,我们假设无论刺激途径如何,都存在相同的振动输入到耳蜗。

结果

对于低和中频(0.25-4 kHz),两种输入类型产生的等效 CM 输出的测量镫骨速度没有显着差异;然而,对于更高的频率(4-14 kHz),AMEI-RW 驱动的速度显着降低。因此,对于具有 AMEI 的 RM 刺激,镫骨速度对于大于约 4 kHz 的频率,可能低估对耳蜗的机械输入约 20 dB。

结论

这项研究证实,当以反向刺激刺激时,镫骨速度(假设正向和反向刺激的等效镫骨速度)不能用作有效输入到耳蜗的替代物。需要对手术期间应用术中电生理测量(CM、复合动作电位或听觉脑干反应)来估计疗效和优化设备耦合和性能的未来研究进行研究。