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Lateralization of virtual sound sources with a binaural cochlear-implant sound coding strategy inspired by the medial olivocochlear reflex.

Publication ,  Journal Article
Lopez-Poveda, EA; Eustaquio-Martín, A; Fumero, MJ; Stohl, JS; Schatzer, R; Nopp, P; Wolford, RD; Gorospe, JM; Polo, R; Revilla, AG; Wilson, BS
Published in: Hear Res
August 2019

Many users of bilateral cochlear implants (BiCIs) localize sound sources less accurately than do people with normal hearing. This may be partly due to using two independently functioning CIs with fixed compression, which distorts and/or reduces interaural level differences (ILDs). Here, we investigate the potential benefits of using binaurally coupled, dynamic compression inspired by the medial olivocochlear reflex; an approach termed "the MOC strategy" (Lopez-Poveda et al., 2016, Ear Hear 37:e138-e148). Twelve BiCI users were asked to localize wideband (125-6000 Hz) noise tokens in a virtual horizontal plane. Stimuli were processed through a standard (STD) sound processing strategy (i.e., involving two independently functioning sound processors with fixed compression) and three different implementations of the MOC strategy: one with fast (MOC1) and two with slower contralateral control of compression (MOC2 and MOC3). The MOC1 and MOC2 strategies had effectively greater inhibition in the higher than in the lower frequency channels, while the MOC3 strategy had slightly greater inhibition in the lower than in the higher frequency channels. Localization was most accurate with the MOC1 strategy, presumably because it provided the largest and less ambiguous ILDs. The angle error improved slightly from 25.3° with the STD strategy to 22.7° with the MOC1 strategy. The improvement in localization ability over the STD strategy disappeared when the contralateral control of compression was made slower, presumably because stimuli were too short (200 ms) for the slower contralateral inhibition to enhance ILDs. Results suggest that some MOC implementations hold promise for improving not only speech-in-noise intelligibility, as shown elsewhere, but also sound source lateralization.

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Published In

Hear Res

DOI

EISSN

1878-5891

Publication Date

August 2019

Volume

379

Start / End Page

103 / 116

Location

Netherlands

Related Subject Headings

  • Superior Olivary Complex
  • Sound Localization
  • Reflex, Acoustic
  • Otorhinolaryngology
  • Organ of Corti
  • Middle Aged
  • Male
  • Humans
  • Hearing Loss, Bilateral
  • Female
 

Citation

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Lopez-Poveda, E. A., Eustaquio-Martín, A., Fumero, M. J., Stohl, J. S., Schatzer, R., Nopp, P., … Wilson, B. S. (2019). Lateralization of virtual sound sources with a binaural cochlear-implant sound coding strategy inspired by the medial olivocochlear reflex. Hear Res, 379, 103–116. https://doi.org/10.1016/j.heares.2019.05.004
Lopez-Poveda, Enrique A., Almudena Eustaquio-Martín, Milagros J. Fumero, Joshua S. Stohl, Reinhold Schatzer, Peter Nopp, Robert D. Wolford, et al. “Lateralization of virtual sound sources with a binaural cochlear-implant sound coding strategy inspired by the medial olivocochlear reflex.Hear Res 379 (August 2019): 103–16. https://doi.org/10.1016/j.heares.2019.05.004.
Lopez-Poveda EA, Eustaquio-Martín A, Fumero MJ, Stohl JS, Schatzer R, Nopp P, et al. Lateralization of virtual sound sources with a binaural cochlear-implant sound coding strategy inspired by the medial olivocochlear reflex. Hear Res. 2019 Aug;379:103–16.
Lopez-Poveda, Enrique A., et al. “Lateralization of virtual sound sources with a binaural cochlear-implant sound coding strategy inspired by the medial olivocochlear reflex.Hear Res, vol. 379, Aug. 2019, pp. 103–16. Pubmed, doi:10.1016/j.heares.2019.05.004.
Lopez-Poveda EA, Eustaquio-Martín A, Fumero MJ, Stohl JS, Schatzer R, Nopp P, Wolford RD, Gorospe JM, Polo R, Revilla AG, Wilson BS. Lateralization of virtual sound sources with a binaural cochlear-implant sound coding strategy inspired by the medial olivocochlear reflex. Hear Res. 2019 Aug;379:103–116.
Journal cover image

Published In

Hear Res

DOI

EISSN

1878-5891

Publication Date

August 2019

Volume

379

Start / End Page

103 / 116

Location

Netherlands

Related Subject Headings

  • Superior Olivary Complex
  • Sound Localization
  • Reflex, Acoustic
  • Otorhinolaryngology
  • Organ of Corti
  • Middle Aged
  • Male
  • Humans
  • Hearing Loss, Bilateral
  • Female