DocumentCode
1172409
Title
Implantable biomedical microsystems for neural prostheses
Author
Stieglitz, Thomas ; Schuetter, M. ; Koch, Klaus Peter
Author_Institution
Lab. of Biomedical Microtechnology, Inst. of Microsystem Technol., Freiburg, Germany
Volume
24
Issue
5
fYear
2005
Firstpage
58
Lastpage
65
Abstract
In the following article, the technologies to fabricate polyimide-based thin and flexible substrates with monolithically integrated electrode arrays and printed circuit boards (PCB) for hybrid electronic assemblies as well as an assembling technique that connects bare electronic dice with flexible PCBs are presented. The concept of modular, flexible biomedical microsystems as neural prostheses is introduced in general and described in detail in three examples. A cuff electrode with integrated multiplexer circuitry and standard implantable cables represents the combination of microtechnology with precision mechanics; a sieve electrode used as an implant in peripheral nerve regeneration studies demonstrates the next level of integration density but still uses a cable connection; and last, joint effort to fabricate the demonstrator of a vision prosthesis that is completely implantable in the eye with a wireless link for energy supply and data transmission is presented. System design, hybrid assembling technology, and flexible multilayer encapsulation using parylene and silicone rubber are the key components for creating a new generation of neural prostheses for complex and challenging new applications.
Keywords
arrays; biomedical electrodes; encapsulation; microelectrodes; micromechanical devices; monolithic integrated circuits; neurophysiology; polymers; printed circuits; prosthetics; silicone rubber; vision; bare electronic dice; cuff electrode; data transmission; energy supply; eye; flexible multilayer encapsulation; hybrid assembling technology; hybrid electronic assemblies; implantable biomedical microsystems; integrated multiplexer circuitry; microtechnology; modular flexible biomedical microsystems; monolithically integrated electrode arrays; neural prostheses; parylene; peripheral nerve regeneration; polyimide-based thin flexible substrates; precision mechanics; printed circuit boards; sieve electrode; silicone rubber; system design; vision prosthesis; wireless link; Assembly; Biomedical electrodes; Cables; Data communication; Flexible printed circuits; Implants; Integrated circuit technology; Multiplexing; Neural prosthesis; Prosthetics;
fLanguage
English
Journal_Title
Engineering in Medicine and Biology Magazine, IEEE
Publisher
ieee
ISSN
0739-5175
Type
jour
DOI
10.1109/MEMB.2005.1511501
Filename
1511501
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