Subretinal electronic chips allow blind patients to read letters and combine them to words E Zrenner, KU Bartz-Schmidt, H Benav, D Besch, A Bruckmann, VP Gabel, ... Proceedings of the Royal Society B: Biological Sciences 278 (1711), 1489-1497, 2011 | 1031 | 2011 |
Biological application of microelectrode arrays in drug discovery and basic research A Stett, U Egert, E Guenther, F Hofmann, T Meyer, W Nisch, H Haemmerle Analytical and bioanalytical chemistry 377, 486-495, 2003 | 625 | 2003 |
Can subretinal microphotodiodes successfully replace degenerated photoreceptors? E Zrenner, A Stett, S Weiss, RB Aramant, E Guenther, K Kohler, ... Vision research 39 (15), 2555-2567, 1999 | 426 | 1999 |
Electrical multisite stimulation of the isolated chicken retina A Stett, W Barth, S Weiss, H Haemmerle, E Zrenner Vision research 40 (13), 1785-1795, 2000 | 355 | 2000 |
The development of subretinal microphotodiodes for replacement of degenerated photoreceptors E Zrenner, KD Miliczek, VP Gabel, HG Graf, E Guenther, H Haemmerle, ... Ophthalmic research 29 (5), 269-280, 1997 | 313 | 1997 |
Silicon-neuron junction: capacitive stimulation of an individual neuron on a silicon chip P Fromherz, A Stett Physical Review Letters 75 (8), 1670, 1995 | 265 | 1995 |
PEDOT–CNT composite microelectrodes for recording and electrostimulation applications: fabrication, morphology, and electrical properties R Gerwig, K Fuchsberger, B Schroeppel, GS Link, G Heusel, U Kraushaar, ... Frontiers in neuroengineering 5, 8, 2012 | 218 | 2012 |
Spatial resolution and perception of patterns mediated by a subretinal 16-electrode array in patients blinded by hereditary retinal dystrophies R Wilke, VP Gabel, H Sachs, KUB Schmidt, F Gekeler, D Besch, ... Investigative ophthalmology & visual science 52 (8), 5995-6003, 2011 | 183 | 2011 |
CYTOCENTERING: A Novel Technique Enabling Automated Cell-by-Cell Patch Clamping with the C YTO P ATCH™ Chip A Stett, C Burkhardt, U Weber, P Van Stiphout, T Knott Receptors and Channels 9 (1), 59-66, 2003 | 127 | 2003 |
Microelement device W Nisch, A Stett, U Egert, M Stelzle US Patent 6,315,940, 2001 | 110 | 2001 |
Subretinal electrical stimulation of the rabbit retina with acutely implanted electrode arrays F Gekeler, K Kobuch, HN Schwahn, A Stett, K Shinoda, E Zrenner Graefe's Archive for Clinical and Experimental Ophthalmology 242, 587-596, 2004 | 103 | 2004 |
Active retina implant with a multiplicity of pixel elements HG Graf, A Dollberg, B Hoefflinger, W Nisch, H Haemmerle, A Stett, ... US Patent 7,751,896, 2010 | 101 | 2010 |
Retina implant W Nisch, A Stett, M Schubert, M Graf, HG Graf, H Hammerle, E Zrenner, ... US Patent 6,804,560, 2004 | 94 | 2004 |
A CMOS-based sensor array for in-vitro neural tissue interfacing with 4225 recording sites and 1024 stimulation sites G Bertotti, D Velychko, N Dodel, S Keil, D Wolansky, B Tillak, M Schreiter, ... 2014 IEEE biomedical circuits and systems conference (BioCAS) proceedings …, 2014 | 86 | 2014 |
Two-way silicon-neuron interface by electrical induction A Stett, B Müller, P Fromherz Physical Review E 55 (2), 1779, 1997 | 86 | 1997 |
Retinal charge sensitivity and spatial discrimination obtainable by subretinal implants: key lessons learned from isolated chicken retina A Stett, A Mai, T Herrmann Journal of neural engineering 4 (1), S7, 2007 | 83 | 2007 |
Retina implant assembly and methods for manufacturing the same W Nisch, A Stett, M Schubert, M Graf, HG Graf, H Hämmerle, E Zrenner, ... US Patent 6,847,847, 2005 | 74 | 2005 |
Device with a base body A Stett, W Nisch US Patent App. 12/421,465, 2009 | 72 | 2009 |
On micro-electrode array revival: its development, sophistication of recording, and stimulation M Fejtl, A Stett, W Nisch, KH Boven, A Möller Advances in network electrophysiology: using multi-electrode arrays, 24-37, 2006 | 71 | 2006 |
Patch-clamping of primary cardiac cells with micro-openings in polyimide films A Stett, V Bucher, C Burkhardt, U Weber, W Nisch Medical and Biological Engineering and Computing 41, 233-240, 2003 | 68 | 2003 |