Constant-Current Adjustable-Waveform Microstimulator for an Implantable Hybrid Neural Prosthesis

Microstimulation of neural tissue has become a widely-used technique for controlling neuronal responses with local electric fields as well as a therapeutic intervention for nervous system disorders such as epilepsy and Parkinson's disease. Of those afflicted by neurological diseases, many are o...

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Published in2007 29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society Vol. 2007; pp. 2436 - 2439
Main Authors Hassell, T.J., Jedlicka, S.S., Rickus, J.L., Irazoqui, P.P.
Format Conference Proceeding Journal Article
LanguageEnglish
Published United States IEEE 01.01.2007
Subjects
Bionics
Chirp modulation
Computer-Aided Design
Control systems
Electric Impedance
Electric Stimulation - instrumentation
Electric Stimulation - methods
Electric Stimulation Therapy
Electrodes
Electrodes, Implanted
Electronics, Medical - instrumentation
Electronics, Medical - methods
Epilepsy
Equipment Design
Humans
In vitro
Microcomputers
Miniaturization
Nervous system
Parkinson's disease
Pharmaceuticals
Printed circuits
Prostheses and Implants
Prosthesis Design
Prosthetics
Prototypes
Transistors, Electronic
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Summary:Microstimulation of neural tissue has become a widely-used technique for controlling neuronal responses with local electric fields as well as a therapeutic intervention for nervous system disorders such as epilepsy and Parkinson's disease. Of those afflicted by neurological diseases, many are or become tolerant to existing pharmaceuticals and are left with little recourse. Little is known about the necessary design criteria or efficacy of a hybrid neural prosthesis. Assessment of the potential clinical value of a hybrid electro-chemical neural prosthesis was performed through in vitro verification using a prototype microstimulator and P19 cell cultures. We constructed a printed circuit board (PCB) microstimulator as a prototype of a CMOS microstimulator ASIC that was subsequently fabricated in the IBM 7RF 0.18 mum process. Measured results for the prototype are described in this work. An output impedance of 237 kOmega, voltage compliance of 11.3 V, and a linear constant-current output up to +/-600 muA make this microstimulator system a viable option for an implantable hybrid neural prosthesis. Hybrid prostheses could uniquely affect neural modulation with linear glutamate release at physiological amplitudes and frequencies.
ISBN:9781424407873
1424407877
ISSN:1094-687X
1557-170X
1558-4615
DOI:10.1109/IEMBS.2007.4352820