Abstract
Users of a cochlear implant (CI) in one ear, who are provided with a hearing aid (HA) in the contralateral ear, so-called bimodal listeners, are typically affected by a constant and relatively large interaural time delay offset due to differences in signal processing and differences in stimulation. For HA stimulation, the cochlear travelling wave delay is added to the processing delay, while for CI stimulation, the auditory nerve fibers are stimulated directly. In case of MED-EL CI systems in combination with different HA types, the CI stimulation precedes the acoustic HA stimulation by 3 to 10 ms. A self-designed, battery-powered, portable, and programmable delay line was applied to the CI to reduce the device delay mismatch in nine bimodal listeners. We used an A-B-B-A test design and determined if sound source localization improves when the device delay mismatch is reduced by delaying the CI stimulation by the HA processing delay (τHA). Results revealed that every subject in our group of nine bimodal listeners benefited from the approach. The root-mean-square error of sound localization improved significantly from 52.6° to 37.9°. The signed bias also improved significantly from 25.2° to 10.5°, with positive values indicating a bias toward the CI. Furthermore, two other delay values (τHA –1 ms and τHA +1 ms) were applied, and with the latter value, the signed bias was further reduced in some test subjects. We conclude that sound source localization accuracy in bimodal listeners improves instantaneously and sustainably when the device delay mismatch is reduced.
Highlights
Bimodal stimulation for cochlear implant (CI) users has become a common approach
Zirn et al (2015) showed that there can be a temporal delay in the range of 3 to 10 ms between an ear provided with a MED-EL Maestro CI system and the contralateral ear provided with a hearing aid (HA)
Evidence that the 1-ms stepsize around stimulation by the HA processing delay (sHA) makes a difference comes from Seebacher et al (2019), who could show an improvement in sound localization if the CI stimulation was delayed by 1 ms in single-sided deaf (SSD) CI users leading to a lower device delay mismatch in the corresponding high-frequency band (2–4 kHz)
Summary
Bimodal stimulation for cochlear implant (CI) users has become a common approach. In such cases, one ear is provided with a CI, and the contralateral ear receives a conventional digital hearing aid (HA). In an ear provided with an HA, the absolute latency is a combination of the (mostly) frequency-independent HA processing latency and the physiologically occurring latencies arising from the transmission of sound through outer, middle, and inner ear, where a frequencydependent latency component is added due to the basilar-membrane travelling wave delay. This temporal asymmetry between the modalities is further referred to as device delay mismatch and may, if present, hamper the perception of envelope ITD and ILD. Evidence that the 1-ms stepsize around sHA makes a difference comes from Seebacher et al (2019), who could show an improvement in sound localization if the CI stimulation was delayed by 1 ms in SSD CI users leading to a lower device delay mismatch in the corresponding high-frequency band (2–4 kHz)
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