Πέμπτη 1 Σεπτεμβρίου 2016

Lateralization of Interaural Level Differences with Multiple Electrode Stimulation in Bilateral Cochlear-Implant Listeners.

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Objective: There is currently no accepted method of mapping bilateral cochlear-implant (BiCI) users to maximize binaural performance, but the current approach of mapping one ear at a time could produce spatial perceptions that are not consistent with a sound's physical location in space. The goal of this study was to investigate the perceived intracranial lateralization of bilaterally synchronized electrical stimulation with a range of interaural level differences (ILDs) and to determine a method to produce relatively more centered auditory images when provided multielectrode stimulation. Design: Using direct stimulation, lateralization curves were measured in nine BiCI listeners using 1000-pulses per second (pps), 500-msec constant-amplitude pulse trains with ILDs that ranged from -20 to +20 clinical current units (CUs). The stimuli were presented bilaterally at 70 to 80% of the dynamic range on single or multiple electrode pairs. For the multielectrode pairs, the ILD was applied consistently across all the pairs. The lateralization response range and the bias magnitude at 0 CU ILD (i.e., the number of CUs needed to produce a centered auditory image) were computed. Then the levels that elicit a centered auditory image with single-electrode stimulation were used with multielectrode stimulation to determine if this produced fewer significant biases at 0 CU ILD. Lastly, a multichannel ILD processing model was used to predict lateralization for the multielectrode stimulation from the single-electrode stimulation. Results: BiCI listeners often perceived both single- and multielectrode stimulation at 0-CU ILD as not intracranially centered. For single-electrode stimulation, 44% of the lateralization curves had relatively large (>=5 CU) bias magnitudes. For the multielectrode stimulation, 25% of the lateralization curves had large bias magnitudes. After centering the single-electrode pairs, the percentage of multielectrode combinations that produced large biases significantly decreased to only 4% (p

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