Document Type : Review Articles
Authors
1 Instructor, Department of Audiology, School of Rehabilitation Sciences, Isfahan University of Medical Sciences, Isfahan, Iran
2 Department of Audiology, School of Rehabilitation Sciences, Isfahan University of Medical Sciences, Isfahan, Iran
Abstract
Introduction: The term channel in cochlear implant systems refers to the number of stimulation sites within the inner ear or cochlea that determines the range of frequencies or pitches. Unlike single-channel cochlear implant, a multi-channel cochlear implant system divides the incoming signal into various frequency bands, and then, transmits it to various stimulation areas within the inner ear. Having more stimulation sites entails two main goals: 1- As the auditory nerve fibers in the cochlea are tonotopically organized, higher number of electrodes leads to better frequency separation; 2- The areas in the cochlea with inappropriate or no response to electrical stimulation will be avoided in the programming of the device, and the components of the processed input frequency will accompany the stimulation. The goal of the present study was to compare the frequency encoding strategy and its effect on speech understanding of the recipients of single-channel and multi-channel cochlear implant systems.Materials and Methods: Published researches were identified by reviewing scientific databases (PubMed, Science Direct, and Google Scholar) from 1965 to 2016 using relevant keywords. The researches were selected based on the inclusion and exclusion criteria.Results: Single-channel cochlear implants encode the frequency based on the rate of firing of electrical impulses. Multi-channel cochlear implants use the spatial strategy theory for frequency encoding, wherein the different frequencies of the auditory signal are separated and presented in a tonotopic manner along the length of the cochlea via the electrode array. The spatial and temporal encoding of the sound frequencies can be partly replicated by multi-channel stimulation of the auditory nerve. Encoding strategy in multi-channel cochlear implant consists of feature extraction and wave form. The resulting speech understanding of the single-channel and multi-channel systems was also assessed.Conclusion: Based on the findings, it can be concluded that single-channel cochlear implant systems with temporal encoding of frequency do not adequately convey speech information, whereas multi-channel cochlear implants have more similarities to the tonotopic map of the cochlea and provide a better speech understanding in comparison to single channel devices.
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