Literatur

Forschungsartikel

• Wrobel W.-G., The Value of Retinal Implants, BMT 2010
• Alex Harscher, Christian Braun, Udo Greppmaier, Steffen Kibbel, Walter–G. Wrobel, Eberhart Zrenner, Retinal Implants: Charge transfer stability and sensitivity compared to visual results. BMT 2010
• Stett A., Herrmann T., Held J., Burkhardt C., Möller A., Boven K.-H., Harscher A., Wrobel W.-G., Nisch W., Mikroimplantate mit Nadelelektroden und biodegradabler Schutzschicht, BMT 2010
• Stingl K.,. Bartz-Schmidt K.U., Benav H., Besch D., Bruckmann A., Gekeler F., Greppmaier U.,Harscher A., Kibbel S., Kusnyerik A., Peters T., Sachs H., Stett A., Wrobel W., Wilhelm B., Wilke R.,Zrenner E., Subretinal electronic chips can restore useful visual functions in
  blind retinitis pigmentosa patients, BMT 2010
• Heinz-Gerd Graf, Christine Harendt, Thorsten Engelhardt, Cor Scherjon, Karsten Warkentin, Harald Richter, and Joachim N. Burghartz, Fellow, IEEE (2009). High Dynamic Range CMOS Imager Technologies for Biomedical Applications. IEEE JOURNAL OF SOLID-STATE CIRCUITS, VOL. 44, NO. 1, JANUARY 2009
• Joachim N. Burghartz, Thorsten Engelhardt, Heinz-Gerd Graf, Christine Harendt, Harald Richter, Cor Scherjon, Karsten Warkentin. CMOS Imager Technologies for Biomedical Applications. ISSCC 2008, Session 7, TD: Electronics for Life Sciences
• Zrenner E, Wilke R, Sachs H, Bartz-Schmidt K, Gekeler F, Besch D, Greppmaier U, Harscher A, Peters T, Wrobel G, Wilhelm B, Bruckmann A, Stett A, SUBRET Study Group (2008). Visual Sensations Mediated By Subretinal Microelectrode Arrays Implanted Into Blind Retinitis Pigmentosa Patients. Proceedings of the 13th Annual Conference of the IFESS
• Stett A, Barth W, Weiss S, Haemmerle H, Zrenner E (2000). Electrical multisite stimulation of the isolated chicken retina. Vision Research, 40: 1785-1795
• Guenther, E., Tröger, B., Schlosshauer, B. and Zrenner, E. (1999) Long-term survival of retinal cell cultures on retinal implant materials. Vision Research 39: 3988- 3994
• Hoff A, Hämmerle H, Schloßhauer B (1999). Organotypic culture system of chicken retina. Brain Res Brain Res Protoc. 4:237-248
• Schlosshauer B, Hoff A, Guenther E, Zrenner E, Haemmerle H (1999). Towards a Retina Prosthesis Model: Neurons on Microphotodiode Arrays in vitro. Biomedical Microdevices 2:61-72
• Zrenner E, Stett A, Weiss S, Aramant RB, Guenther E, Kohler K, Miliczek K-D, Seiler MJ, Haemmerle H (1999). Can subretinal microphotodiodes successfully replace degenerated photoreceptors? Vision Research 39: 2555-2567
• Zrenner E, Miliczek K-D, Gabel VP, Graf HG, Guenther E, Haemmerle H, Hoefflin-ger B, Kohler K, Nisch W, Schubert M, Stett A, Weiss S (1997). The Development of Subretinal Microphotodiodes for Replacement of Degenerated Photo-receptors. Ophthalmic Research; 29:269-280

Buchkapitel, Reviews

• Gekeler F., Schwahn H., Stett A., Kohler K., Zrenner E. (2001). Subretinal microphotodiodes to replace photoreceptor-function. A review of the current state. in: M. Doly, M.-T. Droy, Y. Christen: Vision, sensations et environnement, Irvinn, Paris, 2001, pp 77 - 95
• Rojahn M, Schubert MB (2000). Novel Micro-Photodiodes for Retina Stimulation. Mat. Res. Soc. Symp. Proceed. 609 (in press) MRS Spring Meeting 2000 San Francisco, paper A21.4
• Stelzle M., Stett A., Brunner B., Graf M., Nisch W. (2000). Micro-photodiode ar-rays as artificial retina implant: electrical properties. World congress 2000 on medical physics and biomedical engineering, Chicago.
• Schubert M.B., Stelzle M., Graf M., Stett A., Nisch W., Graf H.G., Haemmerle H., Gabel V.P., Höfflinger B., Zrenner E. (1999). Subretinal implants for the re-covery of vision. IEEE International Conference on Systems, Man, and Cyber-netics, Tokyo/Japan.
• Stett A, Hämmerle H (1999). Subretinale Sehprothesen für Blinde - Wiederher-stellung des Sehvermögens durch elektrische Netzhautreizung. Bulletin SEV/VSE 3/99:11-17
• Weiss S., Herrmann T., Stett A., Zrenner E., Haemmerle H. (1999). Analysis of field potentials and spike patterns evoked by local electrical stimulation of the chicken retina. In: Hollyfield J.G., Anderson R.E., LaVail M.M. (eds.). Retinal Degenerative Diseases and Experimental Therapy. (Chapter 38, pp. 407-416). New York, Boston, Dordrecht, London, Moscow: Kluwer Academic/Plenum Pu-plishers.
• Zrenner E., Weiss S., Stett A., Brunner B., Gabel V.P., Graf M., Graf H.G., Haemmerle H., Hoefflinger B., Kobuch K., Miliczek K.-D., Nisch W., Sachs H., Stelzle M. (1999). Are subretinal microphotodiodes suitable as a replacement for degenerated photoreceptors? In: Hollyfield, J.G., Anderson, R.E. & LaVail, M.M. (Eds), Retinal Degenerative Diseases and Experimental Therapy (Chap-ter 47, pp. 497-506). New York, Boston, Dordrecht, London, Moscow: Kluwer Academic/Plenum Puplishers.
• Schubert MB, Hierzenberger A, Lehner HJ, Werner JH (1998). Optimizing Photo-diode Arrays for the use as Retinal Implants. Sensors and Actuators a (E-MRS Strasbourg 1998)
• Kohler K, Guenther E, Zrenner E (1997). Tiermodelle in der Retinitis-pigmentosa-Forschung. Klin Monatsbl Augenheilkd; 211:84-93
• Schubert MB, Hierzenberger A, Baumung V, Wanka HN, Nisch W, Stelzle M, Zrenner E (1997). Amorphous silicon photodiodes for replacing degenerated photoreceptors in the human eye. Materials Research Society Symp. Proceed.; 467:913
• Zrenner E (1997). Das Subret-Projekt. Subretinal implantierbare Mikrophoto-dioden (MPD) zur Wiederherstellung des Sehens bei Netzhautdegenerationen RP-Journal Nr. 66:27-39

Zitierbare Abstracts

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