2008 IEEE International Solid-State Circuits Conference - Digest of Technical Papers 2008
DOI: 10.1109/isscc.2008.4523097
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CMOS Imager Technologies for Biomedical Applications

Abstract: Apart from the ongoing debate about using CMOS active pixel sensors (APS) or CCD imagers for today's consumer and commercial applications the emerging biomedical market presents new opportunities to CMOS APS. Prominent examples addressing distinct issues in life style and health care are the possibilities to restore vision through a sub-retinal CMOS imager implant and to fabricate a low-cost intracorporeal video probe through a miniature CMOS imager.

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Cited by 16 publications
(2 citation statements)
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“…80 UTCs also find application in video endoscopy, smart catheters, diagnostic pills, sub-retinal implants, neural interfaces, 125 swallowable smart pill 126 and tactile functional prosthetics etc. 127,128 In the field of medical diagnosis, UTCs find application as conformal retinal implant for blind vision, electromyographic and/or neural prosthetic implant, and blast sensor patch in sports/military helmets to detect trauma injury. Neurotechnology is another area which will greatly benefit from electronics that bends, stretches and conforms to curved surfaces.…”
Section: Applications Of Utcsmentioning
confidence: 99%
“…80 UTCs also find application in video endoscopy, smart catheters, diagnostic pills, sub-retinal implants, neural interfaces, 125 swallowable smart pill 126 and tactile functional prosthetics etc. 127,128 In the field of medical diagnosis, UTCs find application as conformal retinal implant for blind vision, electromyographic and/or neural prosthetic implant, and blast sensor patch in sports/military helmets to detect trauma injury. Neurotechnology is another area which will greatly benefit from electronics that bends, stretches and conforms to curved surfaces.…”
Section: Applications Of Utcsmentioning
confidence: 99%
“…The implanted patients were able to perceive coherent structures, coded by an 'electrical image' which was generated by the subretinally implanted electrode array. As reported in Benav et al (2010) the implanted device is based on the monopolar electrode configuration (Burghartz et al, 2008;Rothermel et al, 2008).…”
Section: Introductionmentioning
confidence: 99%