I波听觉脑干反应作为噪声性耳蜗突触病变的一种可能指标。

I' Wave Auditory Brainstem Response as a Possible Indicator of Noise-Induced Cochlear Synaptopathy.

作者信息

Borna Azadeh, Moosavi Abdollah, Akbari Mehdi, Akbarzadeh Baghban Alireza, Sajedi Hamed

机构信息

Rehabilitation Research Center, Department of Audiology, School of Rehabilitation Sciences, Iran University of Medical Sciences, Tehran, Iran.

Department of Otolaryngology and Head and Neck Surgery, Iran university of medical sciences, Tehran, Iran.

出版信息

Iran J Child Neurol. 2025 Jun 25;19(3):77-82. doi: 10.22037/ijcn.v19i3.47308. eCollection 2025 Summer.

DOI:10.22037/ijcn.v19i3.47308

PMID:40787274

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12330969/

Abstract

OBJECTIVES

Cochlear synaptopathy, caused by the destruction of synaptic connections due to aging, noise exposure, and ototoxic agents, is defined as auditory dysfunction despite the normal hearing threshold, specifically in challenging situations. One of the main obstacles in synaptopathy studies and the integration and generalization of research findings is the need for a valid diagnostic test. Although the issue of identifying synaptopathy has received considerable critical attention, little agreement is available on a valid and efficient diagnostic method for cochlear synaptopathy.

MATERIAL & METHODS: A critical review was conducted on previous animal and human studies addressing cochlear synaptopathy, with particular emphasis on the paired-click paradigm and I' wave electrophysiological assessments. Subsequently, pertinent physiological and biophysical models elucidating excitatory postsynaptic potentials at the inner hair cell ribbon synapse were analyzed. Finally, the feasibility and limitations of I' wave recording were theoretically evaluated, with recommendations for future validation studies.

RESULTS

A review of the existing evidence and analysis of biophysical modeling data indicate that the I' wave in the auditory brainstem response, particularly when using the paired-click paradigm, represents the excitatory postsynaptic potential (EPSP) generated at the inner hair cell ribbon synapse.

CONCLUSION

The present hypothesis attempts to bring forward a non-invasive tool that can investigate synaptic function. It sheds new light on future studies in cochlear synaptopathy by suggesting the I' wave as its biomarker.

摘要

目的

耳蜗突触病变是指由于衰老、噪声暴露和耳毒性药物导致突触连接破坏而引起的听觉功能障碍，即使听力阈值正常，在具有挑战性的情况下也会出现这种情况。突触病变研究以及研究结果的整合与推广的主要障碍之一是需要一种有效的诊断测试。尽管识别突触病变的问题已受到相当多的批判性关注，但对于耳蜗突触病变的有效且高效的诊断方法，目前尚无定论。

材料与方法

对以往关于耳蜗突触病变的动物和人体研究进行了批判性综述，特别强调了双声点击范式和I波电生理评估。随后，分析了阐明内毛细胞带状突触处兴奋性突触后电位的相关生理和生物物理模型。最后，从理论上评估了I波记录的可行性和局限性，并为未来的验证研究提出了建议。

结果

对现有证据的综述和生物物理建模数据的分析表明，听觉脑干反应中的I波，特别是在使用双声点击范式时，代表了在内毛细胞带状突触处产生的兴奋性突触后电位（EPSP）。

结论

本假说试图提出一种可用于研究突触功能的非侵入性工具。它通过将I波作为耳蜗突触病变的生物标志物，为该领域未来的研究提供了新的思路。

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Clin Neurophysiol. 2024 Sep;165:44-54. doi: 10.1016/j.clinph.2024.06.005. Epub 2024 Jun 15.

Relative changes in the cochlear summating potentials to paired-clicks predict speech-in-noise perception and subjective hearing acuity.对复发性刺激总和电位的相对变化可预测噪声下言语感知和主观听敏度。

JASA Express Lett. 2022 Oct;2(10):102001. doi: 10.1121/10.0014815.

No effect of occupational noise exposure on auditory brainstem response and speech perception in noise.职业噪声暴露对听性脑干反应及噪声环境下言语感知无影响。

Front Neurosci. 2022 Jul 22;16:915211. doi: 10.3389/fnins.2022.915211. eCollection 2022.

Use of the auditory brainstem response for assessment of cochlear synaptopathy in humans.利用听觉脑干反应评估人类耳蜗突触病。

J Acoust Soc Am. 2021 Dec;150(6):4440. doi: 10.1121/10.0007484.

The Variability in Potential Biomarkers for Cochlear Synaptopathy After Recreational Noise Exposure.娱乐性噪声暴露后耳蜗突触病变潜在生物标志物的变异性

J Speech Lang Hear Res. 2021 Dec 13;64(12):4964-4981. doi: 10.1044/2021_JSLHR-21-00064. Epub 2021 Oct 20.

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