Title :
Current steering for high resolution retinal implants
Author :
Opie, N.L. ; Lovell, Nigel H. ; Suaning, Gregg J. ; Preston, P. ; Dokos, Socrates
Author_Institution :
Centre for Eye Res. Australia, Univ. of Melbourne, Melbourne, VIC, Australia
Abstract :
To significantly increase the resolution achievable by a retinal prosthesis without requiring additional electrodes, a current steering technique could be utilized. In this study, a finite element model was constructed to analyze the local concentrations of charge carrying ions within a saline bath due to concurrent stimulation from two electrodes surrounded by a hexagonal arrangement of return electrodes. By altering the return pathways, tissue activation and identification of unique stimulation patterns is possible. Ag/Ag-Cl electrodes and a voltage controlled current source were developed to validate the finite element model, with the model accurately predicting saline bath measurements. The average error in the returned currents between the finite element model and experimental results was 2% relative to the stimulus current.
Keywords :
bioelectric phenomena; biological tissues; biomedical electrodes; constant current sources; eye; finite element analysis; physiological models; prosthetics; Ag/Ag-Cl electrode; charge carrying ions; concurrent stimulation; current steering technique; finite element model; hexagonal arrangement; high resolution retinal implant; local concentration; retinal prosthesis; return electrode; return pathways; saline bath measurement; stimulation pattern identification; stimulus current; tissue activation; voltage controlled current source; Current measurement; Electric potential; Electrodes; Finite element analysis; Predictive models; Retina; Voltage measurement;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2013 35th Annual International Conference of the IEEE
Conference_Location :
Osaka
DOI :
10.1109/EMBC.2013.6610112
