Electro-haptic stimulation: A new approach for improving cochlear-implant listening
Electro-haptic stimulation: A new approach for improving cochlear-implant listening
Cochlear implants (CIs) have been remarkably successful at restoring speech perception for severely to profoundly deaf individuals. Despite their success, several limitations remain, particularly in CI users' ability to understand speech in noisy environments, locate sound sources, and enjoy music. A new multimodal approach has been proposed that uses haptic stimulation to provide sound information that is poorly transmitted by the implant. This augmenting of the electrical CI signal with haptic stimulation (electro-haptic stimulation; EHS) has been shown to improve speech-in-noise performance and sound localization in CI users. There is also evidence that it could enhance music perception. We review the evidence of EHS enhancement of CI listening and discuss key areas where further research is required. These include understanding the neural basis of EHS enhancement, understanding the effectiveness of EHS across different clinical populations, and the optimization of signal-processing strategies. We also discuss the significant potential for a new generation of haptic neuroprosthetic devices to aid those who cannot access hearing-assistive technology, either because of biomedical or healthcare-access issues. While significant further research and development is required, we conclude that EHS represents a promising new approach that could, in the near future, offer a non-invasive, inexpensive means of substantially improving clinical outcomes for hearing-impaired individuals.
cross-modal, haptic sound-localization, hearing aid, hearing impaired, neuroprosthetic, somatosensory, tactile aid, vibrotactile
581414
Fletcher, Mark
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Verschuur, Carl
b24f8f26-2725-4a13-96ad-e50bfea42748
9 June 2021
Fletcher, Mark
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Verschuur, Carl
b24f8f26-2725-4a13-96ad-e50bfea42748
Fletcher, Mark and Verschuur, Carl
(2021)
Electro-haptic stimulation: A new approach for improving cochlear-implant listening.
Frontiers in Neuroscience, 15, .
(doi:10.3389/fnins.2021.581414).
Abstract
Cochlear implants (CIs) have been remarkably successful at restoring speech perception for severely to profoundly deaf individuals. Despite their success, several limitations remain, particularly in CI users' ability to understand speech in noisy environments, locate sound sources, and enjoy music. A new multimodal approach has been proposed that uses haptic stimulation to provide sound information that is poorly transmitted by the implant. This augmenting of the electrical CI signal with haptic stimulation (electro-haptic stimulation; EHS) has been shown to improve speech-in-noise performance and sound localization in CI users. There is also evidence that it could enhance music perception. We review the evidence of EHS enhancement of CI listening and discuss key areas where further research is required. These include understanding the neural basis of EHS enhancement, understanding the effectiveness of EHS across different clinical populations, and the optimization of signal-processing strategies. We also discuss the significant potential for a new generation of haptic neuroprosthetic devices to aid those who cannot access hearing-assistive technology, either because of biomedical or healthcare-access issues. While significant further research and development is required, we conclude that EHS represents a promising new approach that could, in the near future, offer a non-invasive, inexpensive means of substantially improving clinical outcomes for hearing-impaired individuals.
Text
Accepted_Manuscript
- Accepted Manuscript
More information
Accepted/In Press date: 29 April 2021
Published date: 9 June 2021
Keywords:
cross-modal, haptic sound-localization, hearing aid, hearing impaired, neuroprosthetic, somatosensory, tactile aid, vibrotactile
Identifiers
Local EPrints ID: 448908
URI: http://eprints.soton.ac.uk/id/eprint/448908
ISSN: 1662-4548
PURE UUID: d164b24e-b9ed-4771-80cc-f679ec18947e
Catalogue record
Date deposited: 10 May 2021 16:32
Last modified: 16 Mar 2024 12:10
Export record
Altmetrics
Contributors
Author:
Carl Verschuur
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics