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| Tsuda, Y., Shimizu, T., Yamato, M., Kikuchi, A., Sasagawa, T., Sekiya, S., Kobayashi, J., Chen, G., and Okano, T. (2007). Cellular control of tissue architectures using a three-dimensional tissue fabrication technique. Biomaterials 28, 4939-4946. |
| Hatakeyama, H., Kikuchi, A., Yamato, M., and Okano, T. (2006). Bio-functionalized thermoresponsive interfaces facilitating cell adhesion and proliferation. Biomaterials 27, 5069-5078. |
| Hatakeyama, H., Kikuchi, A., Yamato, M., and Okano, T. (2005). Influence of insulin immobilization to thermoresponsive culture surfaces on cell proliferation and thermally induced cell detachment. Biomaterials 26, 5167-5176. |
| Ebara, M., Yamato, M., Aoyagi, T., Kikuchi, A., Sakai, K., and Okano, T. (2004). Immobilization of cell-adhesive peptides to temperature-responsive surfaces facilitates both serum-free cell adhesion and noninvasive cell harvest. Tissue engineering 10, 1125-1135. |
| Ebara, M., Yamato, M., Aoyagi, T., Kikuchi, A., Sakai, K., and Okano, T. (2004). Temperature-responsive cell culture surfaces enable "on-off" affinity control between cell integrins and RGDS ligands. Biomacromolecules 5, 505-510. |
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| Kwon, O.H., Kikuchi, A., Yamato, M., and Okano, T. (2003). Accelerated cell sheet recovery by co-grafting of PEG with PIPAAm onto porous cell culture membranes. Biomaterials 24, 1223-1232. |
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| Yamato, M., Konno, C., Kushida, A., Hirose, M., Utsumi, M., Kikuchi, A., and Okano, T. (2000). Release of adsorbed fibronectin from temperature-responsive culture surfaces requires cellular activity. Biomaterials 21, 981-986. |
| Uchida, K., Sakai, K., Ito, E., Kwon, O.H., Kikuchi, A., Yamato, M., and Okano, T. (2000). Temperature-dependent modulation of blood platelet movement and morphology on poly(N-isopropylacrylamide)-grafted surfaces. Biomaterials 21, 923-929. |
| Watanabe, K., Yamato, M., Hayashida, Y., Yang, J., Kikuchi, A., Okano, T., Tano, Y., and Nishida, K. (2007). Development of transplantable genetically modified corneal epithelial cell sheets for gene therapy. Biomaterials 28, 745-749. |
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| Kanayama, S., Nishida, K., Yamato, M., Hayashi, R., Sugiyama, H., Soma, T., Maeda, N., Okano, T., and Tano, Y. (2007). Analysis of angiogenesis induced by cultured corneal and oral mucosal epithelial cell sheets in vitro. Experimental eye research 85, 772-781. |
| Sumide, T., Nishida, K., Yamato, M., Ide, T., Hayashida, Y., Watanabe, K., Yang, J., Kohno, C., Kikuchi, A., Maeda, N., Watanabe, H., Okano, T. and Tano, Y. (2006). Functional human corneal endothelial cell sheets harvested from temperature-responsive culture surfaces. The FASEB Journal 20, 392-394. |
| Ide, T., Nishida, K., Yamato, M., Sumide, T., Utsumi, M., Nozaki, T., Kikuchi, A., Okano, T., and Tano, Y. (2006). Structural characterization of bioengineered human corneal endothelial cell sheets fabricated on temperature-responsive culture dishes. Biomaterials 27, 607-614. |
| Hayashida, Y., Nishida, K., Yamato, M., Yang, J., Sugiyama, H., Watanabe, K., Hori, Y., Maeda, N., Kikuchi, A., Okano, T. and Tano, Y. (2006). Transplantation of tissue-engineered epithelial cell sheets after excimer laser photoablation reduces postoperative corneal haze. Investigative ophthalmology & visual science 47, 552-557. |
| Umemoto, T., Yamato, M., Nishida, K., Kohno, C., Yang, J., Tano, Y., and Okano, T. (2005). Rat limbal epithelial side population cells exhibit a distinct expression of stem cell markers that are lacking in side population cells from the central cornea. FEBS letters 579, 6569-6574. |
| Hayashida, Y., Nishida, K., Yamato, M., Watanabe, K., Maeda, N., Watanabe, H., Kikuchi, A., Okano, T., and Tano, Y. (2005). Ocular surface reconstruction using autologous rabbit oral mucosal epithelial sheets fabricated ex vivo on a temperature-responsive culture surface. Investigative ophthalmology & visual science 46, 1632-1639. |
| Watanabe, K., Nishida, K., Yamato, M., Umemoto, T., Sumide, T., Yamamoto, K., Maeda, N., Watanabe, H., Okano, T., and Tano, Y. (2004). Human limbal epithelium contains side population cells expressing the ATP-binding cassette transporter ABCG2. FEBS letters 565, 6-10. |
| Nishida, K., Yamato, M., Hayashida, Y., Watanabe, K., Yamamoto, K., Adachi, E., Nagai, S., Kikuchi, A., Maeda, N., Watanabe, H., Okano, T. and Tano, Y. (2004). Corneal reconstruction with tissue-engineered cell sheets composed of autologous oral mucosal epithelium. The New England journal of medicine 351, 1187-1196. |
| Nishida, K., Yamato, M., Hayashida, Y., Watanabe, K., Maeda, N., Watanabe, H., Yamamoto, K., Nagai, S., Kikuchi, A., Tano, Y. and Okano, T. (2004). Functional bioengineered corneal epithelial sheet grafts from corneal stem cells expanded ex vivo on a temperature-responsive cell culture surface. Transplantation 77, 379-385. |
| Masuda, S., Shimizu, T., Yamato, M., and Okano, T. (2008). Cell sheet engineering for heart tissue repair. Advanced drug delivery reviews 60, 277-285. |
| Shimizu, T., Sekine, H., Yang, J., Isoi, Y., Yamato, M., Kikuchi, A., Kobayashi, E., and Okano, T. (2006). Polysurgery of cell sheet grafts overcomes diffusion limits to produce thick, vascularized myocardial tissues. The FASEB journal 20, 708-710. |
| Shimizu, T., Sekine, H., Isoi, Y., Yamato, M., Kikuchi, A., and Okano, T. (2006). Long-term survival and growth of pulsatile myocardial tissue grafts engineered by the layering of cardiomyocyte sheets. Tissue engineering 12, 499-507. |
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| Haraguchi, Y., Shimizu, T., Yamato, M., Kikuchi, A., and Okano, T. (2006). Electrical coupling of cardiomyocyte sheets occurs rapidly via functional gap junction formation. Biomaterials 27, 4765-4774. |
| Furuta, A., Miyoshi, S., Itabashi, Y., Shimizu, T., Kira, S., Hayakawa, K., Nishiyama, N., Tanimoto, K., Hagiwara, Y., Satoh, T., Fukada, K., Okano, T. and Ogawa, S. (2006). Pulsatile cardiac tissue grafts using a novel three-dimensional cell sheet manipulation technique functionally integrates with the host heart, in vivo. Circulation research 98, 705-712. |
| Itabashi, Y., Miyoshi, S., Yuasa, S., Fujita, J., Shimizu, T., Okano, T., Fukuda, K., and Ogawa, S. (2005). Analysis of the electrophysiological properties and arrhythmias in directly contacted skeletal and cardiac muscle cell sheets. Cardiovascular research 67, 561-570. |
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| Shimizu, T., Yamato, M., Akutsu, T., Shibata, T., Isoi, Y., Kikuchi, A., Umezu, M., and Okano, T. (2002). Electrically communicating three-dimensional cardiac tissue mimic fabricated by layered cultured cardiomyocyte sheets. Journal of biomedical materials research 60, 110-117. |
| Shimizu, T., Yamato, M., Kikuchi, A., and Okano, T. (2001). Two-dimensional manipulation of cardiac myocyte sheets utilizing temperature-responsive culture dishes augments the pulsatile amplitude. Tissue Engineering 7, 141-151. |
| Miyagawa, S., Sawa, Y., Sakakida, S., Taketani, S., Kondoh, H., Memon, I.A., Imanishi, Y., Shimizu, T., Okano, T., and Matsuda, H. (2005). Tissue cardiomyoplasty using bioengineered contractile cardiomyocyte sheets to repair damaged myocardium: their integration with recipient myocardium. Transplantation 80, 1586-1595. |
| Ohki, T., Yamato, M., Murakami, D., Takagi, R., Yang, J., Namiki, H., Okano, T., and Takasaki, K. (2006). Treatment of oesophageal ulcerations using endoscopic transplantation of tissue-engineered autologous oral mucosal epithelial cell sheets in a canine model. Gut 55, 1704-1710. |
| Murakami, D., Yamato, M., Nishida, K., Ohki, T., Takagi, R., Yang, J., Namiki, H., and Okano, T. (2006). The effect of micropores in the surface of temperature-responsive culture inserts on the fabrication of transplantable canine oral mucosal epithelial cell sheets. Biomaterials 27, 5518-5523. |
| Murakami, D., Yamato, M., Nishida, K., Ohki, T., Takagi, R., Yang, J., Namiki, H., and Okano, T. (2006). Fabrication of transplantable human oral mucosal epithelial cell sheets using temperature-responsive culture inserts without feeder layer cells. Journal of artificial organs 9, 185-191. |
| Takayama, G., Taniguchi, A., and Okano, T. (2007). Identification of differentially expressed genes in hepatocyte/endothelial cell co-culture system. Tissue engineering 13, 159-166. |
| Ohashi, K., Yokoyama, T., Yamato, M., Kuge, H., Kanehiro, H., Tsutsumi, M., Amanuma, T., Iwata, H., Yang, J., Okano, T. and Nakajima, Y. (2007). Engineering functional two- and three-dimensional liver systems in vivo using hepatic tissue sheets. Nat Med 13, 880-885. |
| Kurosawa, Y., Taniguchi, A., and Okano, T. (2005). Novel method to examine hepatocyte-specific gene expression in a functional coculture system. Tissue engineering 11, 1650-1657. |
| Harimoto, M., Yamato, M., Hirose, M., Takahashi, C., Isoi, Y., Kikuchi, A., and Okano, T. (2002). Novel approach for achieving double-layered cell sheets co-culture: overlaying endothelial cell sheets onto monolayer hepatocytes utilizing temperature-responsive culture dishes. Journal of biomedical materials research 62, 464-470. |
| Hirose, M., Yamato, M., Kwon, O.H., Harimoto, M., Kushida, A., Shimizu, T., Kikuchi, A., and Okano, T. (2000). Temperature-responsive surface for novel co-culture systems of hepatocytes with endothelial cells: 2-D patterned and double layered co-cultures. Yonsei medical journal 41, 803-813. |
| Kanzaki, M., Yamato, M., Yang, J., Sekine, H., Kohno, C., Takagi, R., Hatakeyama, H., Isaka, T., Okano, T., and Onuki, T. (2007). Dynamic sealing of lung air leaks by the transplantation of tissue engineered cell sheets. Biomaterials 28, 4294-4302. |
| Kanzaki, M., Yamato, M., Hatakeyama, H., Kohno, C., Yang, J., Umemoto, T., Kikuchi, A., Okano, T., and Onuki, T. (2006). Tissue engineered epithelial cell sheets for the creation of a bioartificial trachea. Tissue engineering 12, 1275-1283. |
| Nandkumar, M.A., Yamato, M., Kushida, A., Konno, C., Hirose, M., Kikuchi, A., and Okano, T. (2002). Two-dimensional cell sheet manipulation of heterotypically co-cultured lung cells utilizing temperature-responsive culture dishes results in long-term maintenance of differentiated epithelial cell functions. Biomaterials 23, 1121-1130. |
| Gomez Flores, M., Hasegawa, M., Yamato, M., Takagi, R., Okano, T., and Ishikawa, I. (2008). Cementum-periodontal ligament complex regeneration using the cell sheet technique. Journal of periodontal research |
| Hasegawa, M., Yamato, M., Kikuchi, A., Okano, T., and Ishikawa, I. (2005). Human periodontal ligament cell sheets can regenerate periodontal ligament tissue in an athymic rat model. Tissue engineering 11, 469-478. |
| Akizuki, T., Oda, S., Komaki, M., Tsuchioka, H., Kawakatsu, N., Kikuchi, A., Yamato, M., Okano, T., and Ishikawa, I. (2005). Application of periodontal ligament cell sheet for periodontal regeneration: a pilot study in beagle dogs. Journal of periodontal research 40, 245-251. |
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| Hata, H., Matsumiya, G., Miyagawa, S., Kondoh, H., Kawaguchi, N., Matsuura, N., Shimizu, T., Okano, T., Matsuda, H., and Sawa, Y. (2006). Grafted skeletal myoblast sheets attenuate myocardial remodeling in pacing-induced canine heart failure model. The Journal of thoracic and cardiovascular surgery 132, 918-924. |
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