New developments in cochlear implants
Peeters, S.; Van Immerseel, L.; Zarowski, A.; Houben, V.; Govaerts, P.; Offeciers, E.
Acta Oto-Rhino-Laryngologica Belgica 52(2): 115-127
1998
ISSN/ISBN: 0001-6497 PMID: 9651612 Document Number: 489013
Essential to improve the performance with cochlear implants is a better control of the electrode-nerve interface. The long-term stability of the electrode characteristics has to be guaranteed. Most important herein is to have a low and stable electrical impedance and to prevent fibrosis. Results of electrode coating and fibrosis-inhibiting products are described. To assess the properties of the electrode-nerve interface such as stimulation threshold, spatial selectivity and channel interaction, the electrically evoked compound action potential is measured. The measurement paradigm and the first results are described. Models of auditory nerve response to electrical stimulation can be used as a tool for cochlear implant fitting. A simple model is proposed and its predictions are compared with measured responses.