Insights Into Electrophysiological Metrics of Cochlear Health in Cochlear Implant Users Using a Computational Model.

IF 2.4 3区 医学 Q3 NEUROSCIENCES Jaro-Journal of the Association for Research in Otolaryngology Pub Date : 2024-02-01 Epub Date: 2024-01-26 DOI:10.1007/s10162-023-00924-z
Marko Takanen, Stefan Strahl, Konrad Schwarz
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Abstract

Purpose: The hearing outcomes of cochlear implant users depend on the functional status of the electrode-neuron interface inside the cochlea. This can be assessed by measuring electrically evoked compound action potentials (eCAPs). Variations in cochlear neural health and survival are reflected in eCAP-based metrics. The difficulty in translating promising results from animal studies into clinical use has raised questions about to what degree eCAP-based metrics are influenced by non-neural factors. Here, we addressed these questions using a computational model.

Methods: A 2-D computational model was designed to simulate how electrical signals from the stimulating electrode reach the auditory nerve fibers distributed along the cochlea, evoking action potentials that can be recorded as compound responses at the recording electrodes. Effects of physiologically relevant variations in neural survival and in electrode-neuron and stimulating-recording electrode distances on eCAP amplitude growth functions (AGFs) were investigated.

Results: In line with existing literature, the predicted eCAP AGF slopes and the inter-phase gap (IPG) effects depended on the neural survival, but only when the IPG effect was calculated as the difference between the slopes of the two AGFs expressed in linear input-output scale. As expected, shallower eCAP AGF slopes were obtained for increased stimulating-recording electrode distance and larger eCAP thresholds for greater electrode-neuron distance. These non-neural factors had also minor interference on the predicted IPG effect.

Conclusions: The model predictions demonstrate previously found dependencies of eCAP metrics on neural survival and non-neural aspects. The present findings confirm data from animal studies and provide insights into applying described metrics in clinical practice.

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利用计算模型深入了解人工耳蜗使用者耳蜗健康的电生理指标。
目的:人工耳蜗用户的听力效果取决于耳蜗内电极-神经元界面的功能状态。这可以通过测量电诱发复合动作电位(eCAP)来评估。耳蜗神经健康和存活率的变化反映在基于 eCAP 的指标中。由于很难将动物实验的良好结果转化为临床应用,人们对基于 eCAP 的指标在多大程度上受非神经因素的影响产生了疑问。在此,我们利用一个计算模型来解决这些问题:方法:我们设计了一个二维计算模型,模拟刺激电极发出的电信号如何到达沿耳蜗分布的听觉神经纤维,从而诱发动作电位,这些动作电位可作为复合反应记录在记录电极上。研究了神经存活率以及电极-神经元和刺激-记录电极距离的生理学相关变化对 eCAP 振幅增长函数(AGF)的影响:与现有文献一致,预测的 eCAP AGF 斜率和相间间隙(IPG)效应取决于神经存活率,但只有当 IPG 效应被计算为以线性输入-输出比例表示的两个 AGF 的斜率之差时才会如此。正如预期的那样,刺激-记录电极距离越远,eCAP AGF 斜率越浅;电极-神经元距离越远,eCAP 阈值越大。这些非神经因素对预测的 IPG 效果也有轻微干扰:模型预测证明了之前发现的 eCAP 指标对神经存活和非神经方面的依赖性。本研究结果证实了动物实验的数据,并为在临床实践中应用所述指标提供了启示。
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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
Evaluating the Correlation Between Stimulus Frequency Otoacoustic Emission Group Delays and Tuning Sharpness in a Cochlear Model. Tuning and Timing of Organ of Corti Vibrations at the Apex of the Intact Chinchilla Cochlea. Vital Dye Uptake of YO-PRO-1 and DASPEI Depends Upon Mechanoelectrical Transduction Function in Zebrafish Hair Cells. Investigating the Effect of Blurring and Focusing Current in Cochlear Implant Users with the Panoramic ECAP Method. Eric Daniel Young.
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