Open AccessCortical Processing of Frequency Changes Reflected by the Acoustic Change Complex in Adult Cochlear Implant Users
Author(s) -
Chun Liang,
Lisa Houston,
Ravi N. Samy,
Lamiaa Mohamed Ibrahim Abedelrehim,
Fawen Zhang
Publication year - 2018
Publication title -
audiology and neuro-otology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.106
H-Index - 78
eISSN - 1421-9700
pISSN - 1420-3030
DOI - 10.1159/000492170
Subject(s) - cochlear implant , audiology , psychoacoustics , stimulus (psychology) , perception , speech perception , latency (audio) , cochlear implantation , psychology , medicine , computer science , neuroscience , telecommunications , cognitive psychology
The purpose of this study was to examine neural substrates of frequency change detection in cochlear implant (CI) recipients using the acoustic change complex (ACC), a type of cortical auditory evoked potential elicited by acoustic changes in an ongoing stimulus. A psychoacoustic test and electroencephalographic recording were administered in 12 postlingually deafened adult CI users. The stimuli were pure tones containing different magnitudes of upward frequency changes. Results showed that the frequency change detection threshold (FCDT) was 3.79% in the CI users, with a large variability. The ACC N1’ latency was significantly correlated with the FCDT and the clinically collected speech perception score. The results suggested that the ACC evoked by frequency changes can serve as a useful objective tool in assessing frequency change detection capability and predicting speech perception performance in CI users.