Bilateral cochlear implants (BiCIs) result in several benefits, including improvements in
speech understanding in noise and sound source localization. However, the benefit bilateral …

Bilateral cochlear-implant (CI) users and single-sided deaf listeners with a CI are less
effective at localizing sounds than normal-hearing (NH) listeners. This performance gap is …

The binaural interaction component (BIC) of the auditory brainstem response (ABR) is the
difference obtained after subtracting the sum of right and left ear ABRs from binaurally …

Bilateral cochlear implantation has provided access to some of the benefits of binaural
hearing enjoyed by normal-hearing (NH) listeners. However, a gap in performance still …

There are an increasing number of bilateral and single-sided-deafness cochlear-implant (CI)
users who hope to achieve improved spatial-hearing abilities through access to sound in …

Objectives: Due to interaural frequency mismatch, bilateral cochlear-implant (CI) users may
be less able to take advantage of binaural cues that normal-hearing (NH) listeners use for …

In the clinical fitting of cochlear implants (CIs), the lowest input acoustic frequency is typically
much lower than the characteristic frequency associated with the most apical electrode …

The difference in binaural benefit between bilateral cochlear implant (CI) users and normal
hearing (NH) listeners has typically been attributed to CI sound coding strategies not …

Cochlear implantation as a treatment for severe-to-profound hearing loss allows children to
develop hearing, speech, and language in many cases. However, cochlear implants are …

Understanding cochlear anatomy is crucial for developing less traumatic electrode arrays
and insertion guidance for cochlear implantation. The human cochlea shows considerable …