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Original Article

Influence of contralateral acoustic hearing on adult bimodal outcomes after cochlear implantation

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Pages 472-482 | Received 05 Mar 2015, Accepted 12 Apr 2016, Published online: 23 May 2016
 

Abstract

Objective: To examine post-implantation benefit and time taken to acclimate to the cochlear implant for adult candidates with more hearing in the contralateral non-implanted ear than has been previously considered within local candidacy guidelines. Design: Prospective, within-subject experimental design. Study sample: Forty postlingual hearing-impaired adult subjects with a contralateral ear word score in quiet ranging from 27% to 100% (median 67%). Results: Post-implantation improvement of 2.4 dB and 4.0 dB was observed on a sentence in coincident babble test at presentation levels of 65 and 55 dB SPL respectively, and a 2.1 dB benefit in spatial release from masking (SRM) advantage observed when the noise location favoured the implanted side. Significant post-operative group mean change of between 2.1 and 3.0 was observed on the sub-scales of the speech, spatial, and qualities (SSQ) questionnaire. Degree of post-implantation speech reception threshold (SRT) benefit on the coincident babble test and on perception of soft speech and sounds in the environment was greater for subjects with less contralateral hearing. The degree of contralateral acoustic hearing did not affect time taken to acclimate to the device. Conclusions: The findings from this study support cochlear implantation for candidates with substantial acoustic hearing in the contralateral ear, and provide guidance regarding post-implantation expectations.

Acknowledgements

The authors would like to thank the cochlear implant recipients and the Royal Victorian Eye and Ear Hospital & Sydney Cochlear Implant Centre for their participation and cooperation during this study. We thank Bev Sheridan for administrative support, and Leanne Babic, Ruth English, Dr Komal Arora, Michelle Knight, and Jennie Gorrie for assistance in data collection. This research was funded by The HEARing Cooperative Research Centre, established through the Cooperative Research Centre Program, an Australian Government Initiative. The Bionics Institute acknowledges the support it receives from the Victorian Government through its Operational Infrastructure Support Program.

Declaration of interest

The authors report no conflicts of interest.

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