Annals of Clinical and Experimental NeurologyAnnals of Clinical and Experimental Neurology2075-54732409-2533Research Center of Neurology36510.17816/psaic365UnknownUse of cortical electrodes in solving visual prosthesis problemsBaziyanB. Kh.baz123@yandex.ruIvanovaM. E.baz123@yandex.ruGordeevS. A.baz123@yandex.ruOrtmannV. V.baz123@yandex.ruResearch Center of Neurology, Russian Academy of Medical SciencesNeuroConnex1409200933252906022017Copyright © 2009, Baziyan B.K., Ivanova M.E., Gordeev S.A., Ortmann V.V.2009<div class="entry-content">
<p>There are two main approaches to visual function prosthesis in blindpatients with the use of brain-computer interfaces on the basisof either retinal or cortical stimulation by implanted electrodes. Themost complex in visual prosthesis is creation of the specific part ofthe interface that directly contacts with the tissues. In the paper discussed are questions of biocompatibility of microelectrode arraysand behavioral effects on animals (cats) for evaluating functionalityof the bioprosthetic device and its ability to induce phosphenes(visual sensations without light). Presented are new experimentalmethods and obtained results that allowed to determine phospheneinducing parameters of brain cortex electric stimulation in cats.Special attention is focused on description of the microelectrodearray properties necessary for safe application in humans during thelong time span, which is essential in cortical visual prosthesis.</p>
</div>
<div class="clear"></div>
<div class="entry-meta"></div>visual cortical prosthesisphosphenesartificial visual systembiocompatibilityзрительный кортикальный протезфосфеныискусственная система зрениябиосовместимость[Базиян Б.Х., Гордеев С.А., Иванова М.Е., Ортманн В.В. Параметры индуцирующего фосфены электрического раздражения зрительной коры кошки с помощью имплантированных поверхностных и глубинных электродов. Бюлл. эксп. биол. и мед. 2008; 1: 8–11.][Полянский В.Б. Морфо-функциональная характеристика структуры зрительного анализатора человека и животных после световой депривации. В кн.: А.Б. Коган (ред.) Проблемы протезирования сенсорных функций. Ростов-на-Дону: РГУ, 1981: 16–44.][Bak M., Girvin J.P., Hambrecht F.T. et al. Visual sensations produced by intracortical microstimulation of the human occipital cortex. Med. Biol. Eng. Comput. 1990; 28: 257–259.][Bartlett J.R., Doty R.W. An exploration of the ability of macaques to detect microstimulation of striate cortex. Acta Neurobiol. Exp. (Warsz.) 1980; 40: 713–728.][Bradley D.C., Troyk P.R., Berg J.A. et al. Visuotopic mapping through a multichannel stimulating implant in primate V1. J. Neurophysiol. 2005; 93: 1659–1670.][Brindley G.S. Report to the conference on visual prosthesis. In: Sterling T.D. (ed.) Visual Prosthesis, The Interdisciplinary Dialogue. New York: Academic Press, 1971: 41–48.][Brindley G.S., Lewin W.S. The sensations produced by electrical stimulation of the visual cortex. J. Physiol. 1968; 196: 479–493.][DeYoe E.A., Lewine J.D., Doty R.W. Laminar variation in threshold for detection of electrical excitation of striate cortex by macaques. J. Neurophysiol. 2005; 94: 3443–3450.][Dobelle W.H. Artificial vision for the blind by connecting a television camera to the visual cortex. ASAIO J. 2000; 46: 3–9.][Dobelle W.H., Mladejovsky M.G. Phosphenes produced by electrical stimulation of human occipital cortex, and their application to the development of a prosthesis for the blind. J. Physiol. 1974; 243: 553–576.][Ivanova M.E., Gordeev S.A., OrtmannV.V. et al. Evaluation of cortical visual prostheses microelectrode array function. Description of behavioral feline model. In: 30th Annual International IEEE EMBS Conference. Vancouver, 2008: 3371–3374.][Kelly P.J., Dikmen F.N., Tarkington J.A. Photically oriented conditioned reflexes elicited by electrical stimulation of the visual system in the cat. Brain Res. 1973; 51: 293–305.][Rejnoso-Suarez F. Topografischer Hirnatlas der Katze fur experimental-physiologische Untersuchungen. Darmstadt, 1961.][Schmidt E.M., Bak M.J., Hambrecht F.T. et al. Feasibility of a visual prosthesis for the blind based on intracortical microstimulation of the visual cortex. Brain 1996; 119: 507–522.][Tehovnik E.J., Slocum W.M., Carvey C.E. et al. Phosphene induction and the generation of saccadic eye movements by striate cortex. J. Neurophysiol. 2005; 93: 1–19.]