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长期植入豚鼠的电诱发复合动作电位与听神经健康及电极阻抗之间的关系。

How electrically evoked compound action potentials in chronically implanted guinea pigs relate to auditory nerve health and electrode impedance.

作者信息

Schvartz-Leyzac Kara C, Colesa Deborah J, Buswinka Christopher J, Rabah Andrew M, Swiderski Donald L, Raphael Yehoash, Pfingst Bryan E

机构信息

Kresge Hearing Research Institute, Department of Otolaryngology, University of Michigan, 1150 West Medical Center Drive, Ann Arbor, Michigan 48109-5616, USA.

出版信息

J Acoust Soc Am. 2020 Dec;148(6):3900. doi: 10.1121/10.0002882.

DOI:10.1121/10.0002882
PMID:33379919
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7863685/
Abstract

This study examined how multiple measures based on the electrically evoked compound action potential (ECAP) amplitude-growth functions (AGFs) were related to estimates of neural [spiral ganglion neuron (SGN) density and cell size] and electrode impedance measures in 34 specific pathogen free pigmented guinea pigs that were chronically implanted (4.9-15.4 months) with a cochlear implant electrode array. Two interphase gaps (IPGs) were used for the biphasic pulses and the effect of the IPG on each ECAP measure was measured ("IPG effect"). When using a stimulus with a constant IPG, SGN density was related to the across-subject variance in ECAP AGF linear slope, peak amplitude, and N1 latency. The SGN density values also help to explain a significant proportion of variance in the IPG effect for AGF linear slope and peak amplitude measures. Regression modeling revealed that SGN density was the primary dependent variable contributing to across-subject variance for ECAP measures; SGN cell size did not significantly improve the fitting of the model. Results showed that simple impedance measures were weakly related to most ECAP measures but did not typically improve the fit of the regression model.

摘要

本研究考察了基于电诱发复合动作电位(ECAP)幅度增长函数(AGF)的多种测量方法与神经[螺旋神经节神经元(SGN)密度和细胞大小]估计值以及34只长期植入(4.9 - 15.4个月)人工耳蜗电极阵列的无特定病原体有色豚鼠的电极阻抗测量值之间的关系。使用两个相间间隙(IPG)来产生双相脉冲,并测量IPG对每种ECAP测量值的影响(“IPG效应”)。当使用具有恒定IPG的刺激时,SGN密度与跨个体的ECAP AGF线性斜率、峰值幅度和N1潜伏期的方差相关。SGN密度值也有助于解释AGF线性斜率和峰值幅度测量的IPG效应中方差的很大一部分。回归模型显示,SGN密度是导致ECAP测量值跨个体方差的主要因变量;SGN细胞大小并未显著改善模型的拟合度。结果表明,简单的阻抗测量与大多数ECAP测量值的相关性较弱,但通常不会改善回归模型的拟合度。

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