Bimodal Cochlear Implants: The Role of Acoustic Signal Level in Determining Speech Perception Benefit
Material type: TextSubject(s): Online resources: In: Audiol Neurotol 2014;19:234–238Abstract: The aim of this project was to determine for bimodal cochlear implant (CI) patients, i.e. patients with low-frequency hearing in the ear contralateral to the implant, how speech understanding varies as a function of the difference in level between the CI signal and the acoustic signal. The data suggest that (1) acoustic signals perceived as significantly softer than a CI signal can contribute to speech understanding in the bimodal condition, (2) acoustic signals that are slightly softer than, or balanced with, a CI signal provide the largest benefit to speech understanding, and (3) acoustic signals presented at maximum comfortable loudness levels provide nearly as much benefit as signals that have been balanced with a CI signal.
The aim of this project was to determine for bimodal cochlear
implant (CI) patients, i.e. patients with low-frequency
hearing in the ear contralateral to the implant, how speech
understanding varies as a function of the difference in level
between the CI signal and the acoustic signal. The data suggest
that (1) acoustic signals perceived as significantly softer
than a CI signal can contribute to speech understanding in
the bimodal condition, (2) acoustic signals that are slightly
softer than, or balanced with, a CI signal provide the largest
benefit to speech understanding, and (3) acoustic signals
presented at maximum comfortable loudness levels provide
nearly as much benefit as signals that have been balanced
with a CI signal.