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Journal Abstract Search

157 related items for PubMed ID: 24788459

  • 21.
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  • 22. Electrophysiological studies of the feasibility of suprachoroidal-transretinal stimulation for artificial vision in normal and RCS rats.
    Kanda H, Morimoto T, Fujikado T, Tano Y, Fukuda Y, Sawai H.
    Invest Ophthalmol Vis Sci; 2004 Feb; 45(2):560-6. PubMed ID: 14744899
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  • 23. Distribution of retinal responses evoked by transscleral electrical stimulation detected by intrinsic signal imaging in macaque monkeys.
    Inomata K, Tsunoda K, Hanazono G, Kazato Y, Shinoda K, Yuzawa M, Tanifuji M, Miyake Y.
    Invest Ophthalmol Vis Sci; 2008 May; 49(5):2193-200. PubMed ID: 18436852
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  • 27. Electrophysiological evaluation of a chronically implanted electrode for suprachoroidal transretinal stimulation in rabbit eyes.
    Nishida K, Sakaguchi H, Kamei M, Saito T, Fujikado T, Nishida K.
    J Artif Organs; 2019 Sep; 22(3):237-245. PubMed ID: 30945025
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  • 29. Electrophysiological and histological studies of chronically implanted intrapapillary microelectrodes in rabbit eyes.
    Fang X, Sakaguchi H, Fujikado T, Osanai M, Ikuno Y, Kamei M, Ohji M, Yagi T, Tano Y.
    Graefes Arch Clin Exp Ophthalmol; 2006 Mar; 244(3):364-75. PubMed ID: 16079995
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  • 30. Spatiotemporal interactions in the visual cortex following paired electrical stimulation of the retina.
    Cicione R, Fallon JB, Rathbone GD, Williams CE, Shivdasani MN.
    Invest Ophthalmol Vis Sci; 2014 Nov 04; 55(12):7726-38. PubMed ID: 25370517
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  • 31. 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 04; 243(5):464-8. PubMed ID: 15578200
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  • 32. Characteristics of retinal reflectance changes induced by transcorneal electrical stimulation in cat eyes.
    Morimoto T, Kanda H, Miyoshi T, Hirohara Y, Mihashi T, Kitaguchi Y, Nishida K, Fujikado T.
    PLoS One; 2014 May 04; 9(3):e92186. PubMed ID: 24651530
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  • 33. 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 04; 242(7):587-96. PubMed ID: 15197555
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  • 36. 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 04; 241(12):1013-9. PubMed ID: 14605905
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  • 38. Comparison of electrically evoked cortical potential thresholds generated with subretinal or suprachoroidal placement of a microelectrode array in the rabbit.
    Yamauchi Y, Franco LM, Jackson DJ, Naber JF, Ziv RO, Rizzo JF, Kaplan HJ, Enzmann V.
    J Neural Eng; 2005 Mar 04; 2(1):S48-56. PubMed ID: 15876654
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  • 39. Neural Responses to Multielectrode Stimulation of Healthy and Degenerate Retina.
    Halupka KJ, Abbott CJ, Wong YT, Cloherty SL, Grayden DB, Burkitt AN, Sergeev EN, Luu CD, Brandli A, Allen PJ, Meffin H, Shivdasani MN.
    Invest Ophthalmol Vis Sci; 2017 Jul 01; 58(9):3770-3784. PubMed ID: 28744551
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  • 40. Monitoring Cortical Response and Electrode-Retina Impedance Under Epiretinal Stimulation in Rats.
    Xie H, Wang Y, Ye Z, Fang S, Xu Z, Wu T, Chan LLH.
    IEEE Trans Neural Syst Rehabil Eng; 2021 Jul 01; 29():1178-1187. PubMed ID: 34152987
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