Microelectronic Retinal Prosthesis: I. A Neurostimulator for the Concurrent Activation of Multiple Electrodes

Microelectronic Retinal Prosthesis: I. A Neurostimulator for the Concurrent Activation of Multiple Electrodes

An application specific integrated circuit (ASIC) capable of delivering charge to multiple electrodes in unison has been developed. The ASIC is designed to function as part of an epi-retinal prosthesis driving an array of electrodes in a hexagonal mosaic. This unique organization of electrodes and t...

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Veröffentlicht in:2006 International Conference of the IEEE Engineering in Medicine and Biology Society 2006, Vol.2006, p.4647-4650
Hauptverfasser: Wong, Y.T., Dommel, N., Preston, P.J., Lehmann, T., Lovell, N.H., Suaning, G.J.
Format: Artikel
Sprache:eng
Schlagworte:
Application specific integrated circuits
Australia
Cochlear implants
Electric Stimulation
Electrical stimulation
Electrodes
Electrodes, Implanted
Electrophysiology
Equipment Design
Frequency
Humans
Microelectrodes
Microelectronics
Models, Theoretical
Prosthesis Design
Prosthesis Implantation - methods
Prosthetics
Radio Waves
Retina
Retina - pathology
Retinal Diseases - therapy
Time Factors
Visual system
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Zusammenfassung:An application specific integrated circuit (ASIC) capable of delivering charge to multiple electrodes in unison has been developed. The ASIC is designed to function as part of an epi-retinal prosthesis driving an array of electrodes in a hexagonal mosaic. This unique organization of electrodes and the use of current sources and sinks is implemented to reduce the electrical cross-talk that occurs when many electrodes are activated in unison. Due to the large numbers of electrodes needed to provide useful vision to implantees, the interleaving strategies used in cochlear implants will not suffice for a vision prosthesis, where the "frame rate" is important for acceptable perceptual outcomes. This paper describes the design, and architectural approaches and performance testing of the developed ASIC
ISSN:1557-170X
DOI:10.1109/IEMBS.2006.259606