Residual neural processing of musical sound features in adult cochlear implant users

Auditory processing in general and music perception in particular are hampered in adult cochlear implant (CI) users. To examine the residual music perception skills and their underlying neural correlates in CI users implanted in adolescence or adulthood, we conducted an electrophysiological and beha...

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Bibliographic Details
Published in:Frontiers in human neuroscience 2014-04, Vol.8, p.181-181
Main Authors: Timm, Lydia, Vuust, Peter, Brattico, Elvira, Agrawal, Deepashri, Debener, Stefan, Büchner, Andreas, Dengler, Reinhard, Wittfoth, Matthias
Format: Article
Language:English
Subjects:
Adolescents
Auditory discrimination
Auditory Evoked Potentials
Auditory perception
Brain research
Cochlea
cochlear implant
Cochlear implants
Cortex (auditory)
Frequency
Information processing
Laboratories
Mismatch negativity
Music
music multi-feature paradigm
music perception
Musical instruments
Musicians & conductors
Neuroscience
Rhythms
Sound
Speech
Speech perception
Transplants & implants
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Summary:Auditory processing in general and music perception in particular are hampered in adult cochlear implant (CI) users. To examine the residual music perception skills and their underlying neural correlates in CI users implanted in adolescence or adulthood, we conducted an electrophysiological and behavioral study comparing adult CI users with normal-hearing age-matched controls (NH controls). We used a newly developed musical multi-feature paradigm, which makes it possible to test automatic auditory discrimination of six different types of sound feature changes inserted within a musical enriched setting lasting only 20 min. The presentation of stimuli did not require the participants' attention, allowing the study of the early automatic stage of feature processing in the auditory cortex. For the CI users, we obtained mismatch negativity (MMN) brain responses to five feature changes but not to changes of rhythm, whereas we obtained MMNs for all the feature changes in the NH controls. Furthermore, the MMNs to deviants of pitch of CI users were reduced in amplitude and later than those of NH controls for changes of pitch and guitar timber. No other group differences in MMN parameters were found to changes in intensity and saxophone timber. Furthermore, the MMNs in CI users reflected the behavioral scores from a respective discrimination task and were correlated with patients' age and speech intelligibility. Our results suggest that even though CI users are not performing at the same level as NH controls in neural discrimination of pitch-based features, they do possess potential neural abilities for music processing. However, CI users showed a disrupted ability to automatically discriminate rhythmic changes compared with controls. The current behavioral and MMN findings highlight the residual neural skills for music processing even in CI users who have been implanted in adolescence or adulthood. -Automatic brain responses to musical feature changes reflect the limitations of central auditory processing in adult Cochlear Implant users.-The brains of adult CI users automatically process sound features changes even when inserted in a musical context.-CI users show disrupted automatic discriminatory abilities for rhythm in the brain.-Our fast paradigm demonstrate residual musical abilities in the brains of adult CI users giving hope for their future rehabilitation.
ISSN:1662-5161
1662-5161
DOI:10.3389/fnhum.2014.00181