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Journal Abstract Search

423 related items for PubMed ID: 15578200

  • 1. Subretinal implantation and testing of polyimide film electrodes in cats.
    Sachs HG, Schanze T, Wilms M, Rentzos A, Brunner U, Gekeler F, Hesse L.
    Graefes Arch Clin Exp Ophthalmol; 2005 May; 243(5):464-8. PubMed ID: 15578200
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  • 2. Transscleral implantation and neurophysiological testing of subretinal polyimide film electrodes in the domestic pig in visual prosthesis development.
    Sachs HG, Schanze T, Brunner U, Sailer H, Wiesenack C.
    J Neural Eng; 2005 Mar; 2(1):S57-64. PubMed ID: 15876656
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  • 3. Implantation and testing of subretinal film electrodes in domestic pigs.
    Schanze T, Sachs HG, Wiesenack C, Brunner U, Sailer H.
    Exp Eye Res; 2006 Feb; 82(2):332-40. PubMed ID: 16125172
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  • 5. Implantation of stimulation electrodes in the subretinal space to demonstrate cortical responses in Yucatan minipig in the course of visual prosthesis development.
    Sachs HG, Gekeler F, Schwahn H, Jakob W, Köhler M, Schulmeyer F, Marienhagen J, Brunner U, Framme C.
    Eur J Ophthalmol; 2005 Feb; 15(4):493-9. PubMed ID: 16001384
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  • 8. Subretinal electrical stimulation of the rabbit retina with acutely implanted electrode arrays.
    Gekeler F, Kobuch K, Schwahn HN, Stett A, Shinoda K, Zrenner E.
    Graefes Arch Clin Exp Ophthalmol; 2004 Jul; 242(7):587-96. PubMed ID: 15197555
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  • 9. Evoked cortical potentials after electrical stimulation of the inner retina in rabbits.
    Walter P, Heimann K.
    Graefes Arch Clin Exp Ophthalmol; 2000 Apr; 238(4):315-8. PubMed ID: 10853930
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  • 10. Chronically implanted epidural electrodes in Göttinger minipigs allow function tests of epiretinal implants.
    Laube T, Schanze T, Brockmann C, Bolle I, Stieglitz T, Bornfeld N.
    Graefes Arch Clin Exp Ophthalmol; 2003 Dec; 241(12):1013-9. PubMed ID: 14605905
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  • 11. Activation zones in cat visual cortex evoked by electrical retina stimulation.
    Schanze T, Wilms M, Eger M, Hesse L, Eckhorn R.
    Graefes Arch Clin Exp Ophthalmol; 2002 Nov; 240(11):947-54. PubMed ID: 12486519
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  • 12. Subretinal implantation of semiconductor-based photodiodes: durability of novel implant designs.
    Chow AY, Pardue MT, Perlman JI, Ball SL, Chow VY, Hetling JR, Peyman GA, Liang C, Stubbs EB, Peachey NS.
    J Rehabil Res Dev; 2002 Nov; 39(3):313-21. PubMed ID: 12173752
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  • 13. Focal activation of the feline retina via a suprachoroidal electrode array.
    Wong YT, Chen SC, Seo JM, Morley JW, Lovell NH, Suaning GJ.
    Vision Res; 2009 Mar; 49(8):825-33. PubMed ID: 19272402
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  • 15. Retinal replacement--the development of microelectronic retinal prostheses--experience with subretinal implants and new aspects.
    Sachs HG, Gabel VP.
    Graefes Arch Clin Exp Ophthalmol; 2004 Aug; 242(8):717-23. PubMed ID: 15309557
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  • 16. Repeated transchoroidal implantation and explantation of compound subretinal prostheses: an exploratory study in rabbits.
    Gekeler F, Kobuch K, Blatsios G, Zrenner E, Shinoda K.
    Jpn J Ophthalmol; 2010 Sep; 54(5):467-75. PubMed ID: 21052911
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  • 17. Surgical feasibility and biocompatibility of wide-field dual-array suprachoroidal-transretinal stimulation prosthesis in middle-sized animals.
    Lohmann TK, Kanda H, Morimoto T, Endo T, Miyoshi T, Nishida K, Kamei M, Walter P, Fujikado T.
    Graefes Arch Clin Exp Ophthalmol; 2016 Apr; 254(4):661-73. PubMed ID: 26194404
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  • 19. Compound subretinal prostheses with extra-ocular parts designed for human trials: successful long-term implantation in pigs.
    Gekeler F, Szurman P, Grisanti S, Weiler U, Claus R, Greiner TO, Völker M, Kohler K, Zrenner E, Bartz-Schmidt KU.
    Graefes Arch Clin Exp Ophthalmol; 2007 Feb; 245(2):230-41. PubMed ID: 16645861
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