猕猴中使用软性听觉脑干植入物实现高分辨率人工听觉

High-resolution prosthetic hearing with a soft auditory brainstem implant in macaques.

作者信息

Trouillet Alix, Revol Emilie, Coen Florent-Valéry, Fallegger Florian, Chanthany Aurélie, Delacombaz Maude, Kolly Laurine, Furfaro Ivan, Lanz Florian, Kanumuri Vivek, Adenis Victor, Garcia-Chavez Alejandro, Brown M Christian, Anschuetz Lukas, Bloch Jocelyne, Lee Daniel J, Lacour Stéphanie P

机构信息

Laboratory for Soft Bioelectronic Interfaces, Neuro X Institute, School of Engineering, Ecole Polytechnique Fédérale de Lausanne EPFL, Geneva, Switzerland.

Department of Neuroscience, Platform of Translational Neuroscience, University of Fribourg, Fribourg, Switzerland.

出版信息

Nat Biomed Eng. 2025 Apr 18. doi: 10.1038/s41551-025-01378-9.

DOI:10.1038/s41551-025-01378-9

PMID:40251249

Abstract

Individuals with compromised cochlear nerves are ineligible for cochlear implants and instead rely on auditory brainstem implants (ABIs). Most users of ABIs experience sound awareness, which aids in lip reading, yet not speech intelligibility. Here we engineered a dual-site (brainstem and cortex) implantable system, scaled to macaque anatomy, for the analysis of auditory perception evoked by electrical stimulation of the cochlear nucleus. A soft multichannel ABI, fabricated using thin-film processing, provided high-resolution auditory percepts, with spatially distinct stimulation sites eliciting cortical responses akin to frequency-specific tuning. Behavioural responses collected over several months were sufficiently precise to distinguish stimulations from adjacent channels. Soft multichannel ABIs may aid the rehabilitation of individuals with profound hearing loss who are ineligible for cochlear implants.

摘要

耳蜗神经受损的个体不适合植入人工耳蜗，而是依靠听觉脑干植入物（ABI）。大多数ABI使用者能感知声音，这有助于唇读，但语音清晰度仍不理想。在此，我们设计了一种针对猕猴解剖结构的双位点（脑干和皮层）可植入系统，用于分析耳蜗核电刺激诱发的听觉感知。采用薄膜工艺制造的软性多通道ABI提供了高分辨率的听觉感知，空间上不同的刺激位点引发类似于频率特异性调谐的皮层反应。数月来收集的行为反应足够精确，能够区分相邻通道的刺激。软性多通道ABI可能有助于无法植入人工耳蜗的重度听力损失患者的康复。

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猕猴中使用软性听觉脑干植入物实现高分辨率人工听觉

High-resolution prosthetic hearing with a soft auditory brainstem implant in macaques.

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