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論文一覧. 1. Matsuo T. A simple method for screening photoelectric dyes towards their use for retinal prostheses. Acta Medica Okayama 2003;57:257-260. 2. 松尾俊彦(特許権者).松尾俊彦,段王保文,菅貞治(発明者).受容器電位誘発剤のた めの有機色素化合物のスクリーニング方法.特許第5090431号. 出願番号 特願2009-279089. 出願日平成14年9月30日.登録日平成24年9月21日. 3. Matsuo T, Dan-oh Y, Suga S (Inventors). Agent for inducing receptor potential. Assignee: Hayashibara Biochemical Laboratories. United States Patent. Patent No.: US 7,101,533 B2. Date of Patent: Sep. 5, 2006. 4. 松尾俊彦. 光電変換色素を使った人工網膜の開発.いちょう並木(岡山大学広報) 2004;22:5 (http://www.okayama-u.ac.jp/icho_img/22-5.jpg). 5. Uchida T, Ishimaru S, Shimamura K, Uji A, Matsuo T, Ohtsuki H. Immobilization of photoelectric dye on the polyethylene film surface. Memoirs of the Faculty of Engineering Okayama University 2005;39:16-20. 6. Uji A, Matsuo T, Ishimaru S, Kajiura A, Yamashita T, Shimamura K, Ohtsuki H, Dan-oh Y, Suga S. Photoelectric dye-coupled polyethylene film as a prototype of retinal prostheses. Artificial Organs 2005;29:53-57. 7. 松尾俊彦.光電変換色素を使った人工網膜試作品の開発.岡山大学方式の人工網膜.臨床 眼科 増刊号 2005;59(11):118-122. 8. Uji A, Matsuo T, Uchida T, Shimamura K, Ohtsuki H. Intracellular calcium response and adhesiveness of chick embryonic retinal neurons to photoelectric dye-coupled polyethylene films as prototypes of retinal prostheses. Artificial Organs 2006;30:695-703. 9. 松尾俊彦. 岡山大学方式の人工網膜試作品. 光電変換色素をポリエチレン・フィルムに固 定した人工網膜の開発. 画像ラボ 2006;17(9):36-40. 10. Matsuo T, Morimoto N. Visual acuity and perimacular retinal layers detected by optical coherence tomography in patients with retinitis pigmentosa. British Journal of Ophthalmology 2007;91:888-890. 11. 松尾俊彦.視機能再生工学.光電変換色素をポリエチレン・フィルムに固定した人工網膜 (岡山大学方式人工網膜)の開発.Brain & Nerve 2007;59:331-338. 12. Tamaki T, Matsuo T, Hosoya O, Tsutsui KM, Uchida T, Okamoto K, Uji A, Ohtsuki H. Glial reaction to photoelectric dye-based retinal prostheses implanted in the subretinal space of rats. Journal of Artificial Organs 2008;11:38-44. 13. Okamoto K, Matsuo T, Tamaki T, Uji A, Ohtsuki H. Short-term biological safety of a photoelectric dye used as a component of retinal prostheses. Journal of Artificial Organs 2008;11:45-51. 14. Matsuo T, Morimoto N. Visual acuity and perimacular retinal layers detected by optical coherence tomography in patients with retinitis pigmentosa. British Journal of Ophthalmology 2007;91:888-890. 15. Matsuo T, Uchida T, Takarabe K. Safety, efficacy, and quality control of a photoelectric dye-based retinal prosthesis (Okayama University-type retinal prosthesis) as a medical device. Journal of Artificial Organs 2009;12:213-225. 16. Tamaki M, Matsuo T. Optical coherence tomographic parameters as objective signs for visual acuity in patients with retinitis pigmentosa, future candidates for retinal prostheses. Journal of Artificial Organs 2011;14:140-150. Erratum 2011;14:385. 17. Alamusi, Matsuo T, Hosoya O, Tsutsui MK, Uchida T. Behavior tests and immunohistochemical retinal response analyses in RCS rats with subretinal implantation of Okayama University-type retinal prosthesis. Journal of Artificial Organs 2013;16 (in press). 日本人工臓器学会 第50回大会論文中の最優秀論文 Tominaga Award 2013を受賞 第52回日本人工臓器学会大会(2014.10.17〜19)で論文賞を受賞 18. 松尾俊彦, 内田哲也. 色素結合薄膜型の人工網膜(OUReP)の医師主導治験を目指して 人工臓器 2014;43:189-193. (http://dx.doi.org/10.11392/jsao.43.189) 19. Okayama University Medical Research Updates (OU-MRU) Vol.7 (Okayama, 11 March) Researchers at Okayama demonstrate the promise of a new approach for stimulating neurons in the eyes of patients with dead photoreceptor cells. (http://www.okayama-u.ac.jp/en/tp/release/release_id273.html) |
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