Neural alpha oscillations and auditory steady-state responses during adaptation to a cochlear implant.

IF 2.9 2区医学 Q2 NEUROSCIENCES

Cerebral cortex Pub Date : 2025-08-01 DOI:10.1093/cercor/bhaf244

Malte Wöstmann, Hannah Marie Meineke, Rainer Schönweiler, Daniela Hollfelder, Karl-Ludwig Bruchhage, Anke Leichtle, Jonas Obleser

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Abstract

The human auditory system must distinguish relevant sounds from noise. Severe hearing loss can be treated with cochlear implants (CIs), but how the brain adapts to electrical hearing remains unclear. This study examined adaptation to unilateral CI use in the first and seventh months after CI activation using speech comprehension measures and electroencephalography recordings, both during passive listening and an active spatial listening task. Neural phase-locking to amplitude-modulated sounds interacted with time, such that phase-locking longitudinally increased stronger for 40 Hz compared with 4 Hz. In the spatial listening task, the benefit of performing the task with the CI on vs. off was most pronounced when the CI ear was primarily exposed to target speech. Lateralized alpha oscillations (~10 Hz) reliably marked CI users' focus of spatial attention. Stronger alpha modulation in the hemisphere opposite to the nonimplanted ear indicates an attentional bias toward the acoustically hearing ear. Our findings suggest that adaptation to hearing with a CI is accomplished by dynamic changes in auditory phase locking and a bias in auditory spatial attention.

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人工耳蜗适应过程中的神经振荡和听觉稳态反应。

人的听觉系统必须从噪音中分辨出相关的声音。严重的听力损失可以通过人工耳蜗（CIs）来治疗，但大脑如何适应电听力仍不清楚。本研究在被动听力和主动空间听力任务中，使用语音理解测量和脑电图记录，检查了在CI激活后的第一个月和第七个月对单侧CI使用的适应情况。振幅调制声音的神经锁相与时间相互作用，因此锁相在40 Hz时比在4 Hz时纵向增强。在空间听力任务中，当CI耳主要暴露于目标语音时，执行任务时CI打开或关闭的好处最为明显。横向α振荡（~10 Hz）可靠地标记了CI用户的空间注意焦点。与未植入耳相反的半球更强的α调制表明注意力偏向于听觉正常的耳朵。我们的研究结果表明，对CI的听力适应是通过听觉相位锁定的动态变化和听觉空间注意的偏向来完成的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cerebral cortex 医学-神经科学

CiteScore

6.30

自引率

8.10%

发文量

510

审稿时长

2 months

期刊介绍： Cerebral Cortex publishes papers on the development, organization, plasticity, and function of the cerebral cortex, including the hippocampus. Studies with clear relevance to the cerebral cortex, such as the thalamocortical relationship or cortico-subcortical interactions, are also included. The journal is multidisciplinary and covers the large variety of modern neurobiological and neuropsychological techniques, including anatomy, biochemistry, molecular neurobiology, electrophysiology, behavior, artificial intelligence, and theoretical modeling. In addition to research articles, special features such as brief reviews, book reviews, and commentaries are included.