Biomedical Engineering Reference
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Sullivan D.
Electromagnetic Simulation Using the FDTD Method
. New York: IEEE Press, 2000.
Suzuki S, Humayun MS, de Juan E Jr, Weiland JD, and Barron YA. A comparison of electrical stimulation
threshold in normal mouse retina vs. different aged retinal degenerate (rd) mouse retina. The Associ-
ation of Research in Vision and Ophthalmology Annual Meeting, 1999; Fort Lauderdale. Abstract
3886 S735.
Tassicker. (US 2760483). 1956. Ref Type: Patent.
The National Library of Medicine. The Visible Human Project. (Online). Available:
http://www.nlm.nih.gov/
research/visible/visible_human.html
, 2000.
Uematsu S, Chapanis N, Gucer G, Konigsmark B, and Walker AE. Electrical stimulation of the celebral visual
system in man.
Confinia Neurologica
, 36:113-124, 1974.
Veraart C, Wanet-Defalque MC, Gerard B, Vanlierde A, and Delbeke J. Pattern recognition with the optic
nerve visual prosthesis.
Artificial Organs
, 27(11):996-1004, 2003.
Walter P, Szurman P, Vobig M, Berk H, Ludtke-Handjery HC, Richter H, Mittermayer C, Heimann K, and
Sellhaus B. Successful long term implantation of electrically inactive epiretinal microelectrode arrays
in rabbits.
Retina
, 19:546-552, 1999.
Wang J and Fujiwara O. FDTD computation of temperature rise in the human head for portable telephones.
IEEE Transactions on Microwave Theory and Techniques
, 47:1528-1534, August 1999.
Weiland JD, Humayun MS. Suzuki S, D'Anna SA, and de Juan E Jr. Electrically evoked response (EER) from
the visual cortex in normal and retinal degenerate dog. The Association of Research in Vision and
Ophthalmology Annual Meeting, 1999; Fort Lauderdale. Abstract 4125 S783.
Weiland JD and Humayun MS. Past, present and future of artificial vision.
Artificial Organs
, 27(11):961-962,
2003.
Yagi T and Watanabe M. A computional study on an electrode array in a hybrid retinal implant.
Proceedings of
1998 IEEE International Joint Conference on Neural Networks
, 780-783, 1998.
Zrenner E, Miliczek KD, Gabel VP, Graf HG, Guenther E, Haemmerle H, Hoefflinger B, Kohler K, Nisch W,
Schubert M, Stett A, and Weiss S. The development of subretinal microphotodiodes for replacement of
degenerated photoreceptors.
Ophthalmic Research
, 29(5): 269-280, 1997.
Zrenner E, Stett A, Weiss S, Aramant RB, Guenther E, Kohler S, Miliczek KD, Seiler MJ, and Hammerle H.
Can subretinal microphotodiodes successfully replace degenerated photoreceptors?
Vision Research
,
39:2555-2567, 1999.
Zrenner E. Will retinal implants restore vision?
Science,
295:1022-1025, 2002.
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