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μLED‐based optical cochlear implants for spectrally selective activation of the auditory nerve

Alexander Dieter, Eric Klein, Daniel Keppeler, Lukasz Jablonski, Tamás Harczos, Gerhard Hoch, Vladan Rankovic, Oliver Paul, Marcus Jeschke, Patrick Ruther, Tobias Moser

2020EMBO Molecular Medicine53 citationsDOIOpen Access PDF

Abstract

Electrical cochlear implants (eCIs) partially restore hearing and enable speech comprehension to more than half a million users, thereby re-connecting deaf patients to the auditory scene surrounding them. Yet, eCIs suffer from limited spectral selectivity, resulting from current spread around each electrode contact and causing poor speech recognition in the presence of background noise. Optogenetic stimulation of the auditory nerve might overcome this limitation as light can be conveniently confined in space. Here, we combined virus-mediated optogenetic manipulation of cochlear spiral ganglion neurons (SGNs) and microsystems engineering to establish acute multi-channel optical cochlear implant (oCI) stimulation in adult Mongolian gerbils. oCIs based on 16 microscale thin-film light-emitting diodes (μLEDs) evoked tonotopic activation of the auditory pathway with high spectral selectivity and modest power requirements in hearing and deaf gerbils. These results prove the feasibility of μLED-based oCIs for spectrally selective activation of the auditory nerve.

Topics & Concepts

OptogeneticsCochlear implantSpiral ganglionTonotopyCochleaMaterials scienceNeuroscienceBiologyPhotoreceptor and optogenetics researchNeuroscience and Neural EngineeringNeural dynamics and brain function
μLED‐based optical cochlear implants for spectrally selective activation of the auditory nerve | Litcius