Horizontal sound localization in cochlear implant users with a contralateral hearing aid

Horizontal sound localization in cochlear implant users with a contralateral hearing aid

Interaural differences in sound arrival time (ITD) and in level (ILD) enable us to localize sounds in the horizontal plane, and can support source segregation and speech understanding in noisy environments. It is uncertain whether these cues are also available to hearing-impaired listeners who are b...

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Veröffentlicht in:Hearing research 2016-06, Vol.336, p.72-82
Hauptverfasser: Veugen, Lidwien C.E., Hendrikse, Maartje M.E., van Wanrooij, Marc M., Agterberg, Martijn J.H., Chalupper, Josef, Mens, Lucas H.M., Snik, Ad F.M., John van Opstal, A.
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Acoustic Stimulation
Aged
Aged, 80 and over
Auditory Perception
Bimodal stimulation
Binaural cues
Calibration
Cochlear Implantation
Cochlear Implants
Cues
Deafness - therapy
Directional hearing
Female
Hearing
Hearing Tests
Humans
Male
Middle Aged
Sound
Sound Localization
Speech Perception
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container_end_page 82
container_issue
container_start_page 72
container_title Hearing research
container_volume 336
creator Veugen, Lidwien C.E.
Hendrikse, Maartje M.E.
van Wanrooij, Marc M.
Agterberg, Martijn J.H.
Chalupper, Josef
Mens, Lucas H.M.
Snik, Ad F.M.
John van Opstal, A.
description Interaural differences in sound arrival time (ITD) and in level (ILD) enable us to localize sounds in the horizontal plane, and can support source segregation and speech understanding in noisy environments. It is uncertain whether these cues are also available to hearing-impaired listeners who are bimodally fitted, i.e. with a cochlear implant (CI) and a contralateral hearing aid (HA). Here, we assessed sound localization behavior of fourteen bimodal listeners, all using the same Phonak HA and an Advanced Bionics CI processor, matched with respect to loudness growth. We aimed to determine the availability and contribution of binaural (ILDs, temporal fine structure and envelope ITDs) and monaural (loudness, spectral) cues to horizontal sound localization in bimodal listeners, by systematically varying the frequency band, level and envelope of the stimuli. The sound bandwidth had a strong effect on the localization bias of bimodal listeners, although localization performance was typically poor for all conditions. Responses could be systematically changed by adjusting the frequency range of the stimulus, or by simply switching the HA and CI on and off. Localization responses were largely biased to one side, typically the CI side for broadband and high-pass filtered sounds, and occasionally to the HA side for low-pass filtered sounds. HA-aided thresholds better than 45 dB HL in the frequency range of the stimulus appeared to be a prerequisite, but not a guarantee, for the ability to indicate sound source direction. We argue that bimodal sound localization is likely based on ILD cues, even at frequencies below 1500 Hz for which the natural ILDs are small. These cues are typically perturbed in bimodal listeners, leading to a biased localization percept of sounds. The high accuracy of some listeners could result from a combination of sufficient spectral overlap and loudness balance in bimodal hearing. [Display omitted] •Bimodal sound localization in the horizontal plane depends on the sound's frequency band.•Sound localization was not possible with aided thresholds by the hearing aid poorer than 45 dB HL.•Bimodal sound localization depends on low-frequency interaural level differences.•Spectral overlap between the hearing aid and cochlear implant determines bimodal sound localization behavior.
doi_str_mv 10.1016/j.heares.2016.04.008
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It is uncertain whether these cues are also available to hearing-impaired listeners who are bimodally fitted, i.e. with a cochlear implant (CI) and a contralateral hearing aid (HA). Here, we assessed sound localization behavior of fourteen bimodal listeners, all using the same Phonak HA and an Advanced Bionics CI processor, matched with respect to loudness growth. We aimed to determine the availability and contribution of binaural (ILDs, temporal fine structure and envelope ITDs) and monaural (loudness, spectral) cues to horizontal sound localization in bimodal listeners, by systematically varying the frequency band, level and envelope of the stimuli. The sound bandwidth had a strong effect on the localization bias of bimodal listeners, although localization performance was typically poor for all conditions. Responses could be systematically changed by adjusting the frequency range of the stimulus, or by simply switching the HA and CI on and off. Localization responses were largely biased to one side, typically the CI side for broadband and high-pass filtered sounds, and occasionally to the HA side for low-pass filtered sounds. HA-aided thresholds better than 45 dB HL in the frequency range of the stimulus appeared to be a prerequisite, but not a guarantee, for the ability to indicate sound source direction. We argue that bimodal sound localization is likely based on ILD cues, even at frequencies below 1500 Hz for which the natural ILDs are small. These cues are typically perturbed in bimodal listeners, leading to a biased localization percept of sounds. The high accuracy of some listeners could result from a combination of sufficient spectral overlap and loudness balance in bimodal hearing. [Display omitted] •Bimodal sound localization in the horizontal plane depends on the sound's frequency band.•Sound localization was not possible with aided thresholds by the hearing aid poorer than 45 dB HL.•Bimodal sound localization depends on low-frequency interaural level differences.•Spectral overlap between the hearing aid and cochlear implant determines bimodal sound localization behavior.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>27178443</pmid><doi>10.1016/j.heares.2016.04.008</doi><tpages>11</tpages><orcidid>https://orcid.org/0000-0003-4180-1835</orcidid></addata></record>
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subjects Acoustic Stimulation
Aged
Aged, 80 and over
Auditory Perception
Bimodal stimulation
Binaural cues
Calibration
Cochlear Implantation
Cochlear Implants
Cues
Deafness - therapy
Directional hearing
Female
Hearing
Hearing Tests
Humans
Male
Middle Aged
Sound
Sound Localization
Speech Perception
title Horizontal sound localization in cochlear implant users with a contralateral hearing aid
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