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. 2022 Aug 17;65(8):3165-3194.
doi: 10.1044/2022_JSLHR-21-00209. Epub 2022 Aug 4.

Recognizing Voices Through a Cochlear Implant: A Systematic Review of Voice Perception, Talker Discrimination, and Talker Identification

Sarah Colby  1 Adriel John Orena  2
Affiliations

Recognizing Voices Through a Cochlear Implant: A Systematic Review of Voice Perception, Talker Discrimination, and Talker Identification

Sarah Colby et al. J Speech Lang Hear Res. .

Abstract

Objective: Some cochlear implant (CI) users report having difficulty accessing indexical information in the speech signal, presumably due to limitations in the transmission of fine spectrotemporal cues. The purpose of this review article was to systematically review and evaluate the existing research on talker processing in CI users. Specifically, we reviewed the performance of CI users in three types of talker- and voice-related tasks. We also examined the different factors (such as participant, hearing, and device characteristics) that might influence performance in these specific tasks.

Design: We completed a systematic search of the literature with select key words using citation aggregation software to search Google Scholar. We included primary reports that tested (a) talker discrimination, (b) voice perception, and (c) talker identification. Each report must have had at least one group of participants with CIs. Each included study was also evaluated for quality of evidence.

Results: The searches resulted in 1,561 references, which were first screened for inclusion and then evaluated in full. Forty-three studies examining talker discrimination, voice perception, and talker identification were included in the final review. Most studies were focused on postlingually deafened and implanted adult CI users, with fewer studies focused on prelingual implant users. In general, CI users performed above chance in these tasks. When there was a difference between groups, CI users performed less accurately than their normal-hearing (NH) peers. A subset of CI users reached the same level of performance as NH participants exposed to noise-vocoded stimuli. Some studies found that CI users and NH participants relied on different cues for talker perception. Within groups of CI users, there is moderate evidence for a bimodal benefit for talker processing, and there are mixed findings about the effects of hearing experience.

Conclusions: The current review highlights the challenges faced by CI users in tracking and recognizing voices and how they adapt to it. Although large variability exists, there is evidence that CI users can process indexical information from speech, though with less accuracy than their NH peers. Recent work has described some of the factors that might ease the challenges of talker processing in CI users. We conclude by suggesting some future avenues of research to optimize real-world speech outcomes.

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Figures

Figure 1.
Figure 1.
PRISMA chart of the study selection process.
Figure 2.
Figure 2.
Descriptive statistics of the age of participants in articles with (A) talker discrimination tasks, (B) voice perception tasks, and (C) talker identification tasks. Filled circle dots indicate the mean age, solid horizontal lines indicate the standard deviation of age, and dotted horizontal lines indicate the age range. Orange dots and lines represent data for cochlear implant (CI) participants, whereas blue dots and lines represent data for normal-hearing (NH) participants. Numbers in parentheses following the citation indicate different CI groups within the same study.
See this image and copyright information in PMC

References

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