Listening Effort With Cochlear Implant Simulations

Carina Pals*, Anastasios Sarampalis, Deniz Başkent

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

82 Citations (Scopus)

Abstract

Purpose: Fitting a cochlear implant (CI) for optimal speech perception does not necessarily optimize listening effort. This study aimed to show that listening effort may change between CI processing conditions for which speech intelligibility remains constant.

Method: Nineteen normal-hearing participants listened to CI simulations with varying numbers of spectral channels. A dual-task paradigm combining an intelligibility task with either a linguistic or nonlinguistic visual response-time (RT) task measured intelligibility and listening effort. The simultaneously performed tasks compete for limited cognitive resources; changes in effort associated with the intelligibility task are reflected in changes in RT on the visual task. A separate self-report scale provided a subjective measure of listening effort.

Results: All measures showed significant improvements with increasing spectral resolution up to 6 channels. However, only the RT measure of listening effort continued improving up to 8 channels. The effects were stronger for RTs recorded during listening than for RTs recorded between listening.

Conclusion: The results suggest that listening effort decreases with increased spectral resolution. Moreover, these improvements are best reflected in objective measures of listening effort, such as RTs on a secondary task, rather than intelligibility scores or subjective effort measures.

Original languageEnglish
Pages (from-to)1075-1084
Number of pages10
JournalJournal of speech, language, and hearing research
Volume56
Issue number4
DOIs
Publication statusPublished - 1-Aug-2013

Keywords

  • cochlear implants
  • listening effort
  • dual task
  • reaction time
  • computer simulation
  • hearing
  • speech perception
  • SENSORINEURAL HEARING-LOSS
  • SPEECH RECOGNITION
  • PHONEMIC RESTORATION
  • RECEPTION THRESHOLD
  • SPECTRAL CHANNELS
  • COGNITIVE-FACTORS
  • WORD RECOGNITION
  • MENTAL WORKLOAD
  • NOISE
  • MEMORY

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