Changes in the Electrically Evoked Compound Action Potential over time After Implantation and Subsequent Deafening in Guinea Pigs.

Dyan Ramekers, Heval Benav, Sjaak F L Klis, Huib Versnel
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引用次数: 4

Abstract

The electrically evoked compound action potential (eCAP) is a direct measure of the responsiveness of the auditory nerve to electrical stimulation from a cochlear implant (CI). CIs offer a unique opportunity to study the auditory nerve's electrophysiological behavior in individual human subjects over time. In order to understand exactly how the eCAP relates to the condition of the auditory nerve, it is crucial to compare changes in the eCAP over time in a controlled model of deafness-induced auditory nerve degeneration. In the present study, 10 normal-hearing young adult guinea pigs were implanted and deafened 4 weeks later, so that the effect of deafening could be monitored within-subject over time. Following implantation, but before deafening, most examined eCAP characteristics significantly changed, suggesting increasing excitation efficacy (e.g., higher maximum amplitude, lower threshold, shorter latency). Conversely, inter-phase gap (IPG) effects on these measures - within-subject difference measures that have been shown to correlate well with auditory nerve survival - did not vary for most eCAP characteristics. After deafening, we observed an initial increase in excitability (steeper slope of the eCAP amplitude growth function (AGF), lower threshold, shorter latency and peak width) which typically returned to normal-hearing levels within a week, after which a slower process, probably reflecting spiral ganglion cell loss, took place over the remaining 6 weeks (e.g., decrease in maximum amplitude, AGF slope, peak area, and IPG effect for AGF slope; increase in IPG effect for latency). Our results suggest that gradual changes in peak width and latency reflect the rate of neural degeneration, while peak area, maximum amplitude, and AGF slope reflect neural population size, which may be valuable for clinical diagnostics.

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豚鼠植入后电诱发复合动作电位随时间的变化及随后的耳聋。
电诱发复合动作电位(eCAP)是一种直接测量听神经对人工耳蜗(CI)电刺激反应的方法。ci提供了一个独特的机会来研究听神经的电生理行为在个体人类受试者随着时间的推移。为了准确了解eCAP与听神经状况的关系,在耳聋诱导的听神经变性的控制模型中比较eCAP随时间的变化是至关重要的。在本研究中,10只正常听力的年轻成年豚鼠被植入并在4周后失聪,以便在受试者体内随时间监测失聪的效果。植入后,但在耳聋前,大多数检查的eCAP特征显著改变,表明激发效能增强(如最大振幅更高,阈值更低,潜伏期更短)。相反,在大多数eCAP特征中,期间间隙(IPG)对这些测量的影响(已被证明与听神经存活密切相关的受试者内差异测量)并没有变化。在耳聋后,我们观察到最初的兴奋性增加(eCAP振幅生长函数(AGF)斜率更陡,阈值更低,潜伏期和峰宽更短),通常在一周内恢复到正常听力水平,之后一个较慢的过程,可能反映了螺旋神经节细胞的损失,发生在剩余的6周内(例如,最大振幅,AGF斜率,峰面积和AGF斜率的IPG效应下降;潜伏期IPG效应增加)。我们的研究结果表明,峰宽和潜伏期的逐渐变化反映了神经退行性变的速度,而峰面积、最大振幅和AGF斜率反映了神经种群的大小,这可能对临床诊断有价值。
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来源期刊
CiteScore
4.10
自引率
12.50%
发文量
57
审稿时长
6-12 weeks
期刊介绍: JARO is a peer-reviewed journal that publishes research findings from disciplines related to otolaryngology and communications sciences, including hearing, balance, speech and voice. JARO welcomes submissions describing experimental research that investigates the mechanisms underlying problems of basic and/or clinical significance. Authors are encouraged to familiarize themselves with the kinds of papers carried by JARO by looking at past issues. Clinical case studies and pharmaceutical screens are not likely to be considered unless they reveal underlying mechanisms. Methods papers are not encouraged unless they include significant new findings as well. Reviews will be published at the discretion of the editorial board; consult the editor-in-chief before submitting.
期刊最新文献
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