Search Results - "Yokoyama, Tun A."

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  1. 1
    Enhancement of permeability in endothelial cells for the development of an antithrombogenic bioartificial hemofilter

    Enhancement of permeability in endothelial cells for the development of an antithrombogenic bioartificial hemofilter by Vu, Duc M, Yokoyama, Tun A, Sawada, Kaichiro, Inagaki, Miho, Kanai, Genta, Lu, Jianxin, Kakuta, Takatoshi, Adler, Stephen, Nangaku, Masaomi, Saito, Akira

    Published in Biotechnology and bioengineering (15-10-2008)
    “…For the development of an antithrombogenic bioartificial hemofilter, in which the inner surface of hollow fibers is lined by endothelial cells, it is essential…”
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  2. 2
    Prevention of LLC-PK1 cell overgrowth in a bioartificial renal tubule device using a MEK inhibitor, U0126

    Prevention of LLC-PK1 cell overgrowth in a bioartificial renal tubule device using a MEK inhibitor, U0126 by INAGAKI, Miho, YOKOYAMA, Tun A, SAWADA, Kaichiro, DUC, Vu M, KANAI, Genta, JIANXIN LU, KAKUTA, Takatoshi, SAITO, Akira

    Published in Journal of biotechnology (15-10-2007)
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  3. 3
    Suppression of parathyroid hormone production in vitro and in vivo by RNA interference

    Suppression of parathyroid hormone production in vitro and in vivo by RNA interference by Kanai, Genta, Kakuta, Takatoshi, Sawada, Kaichiro, Yokoyama, Tun A., Tanaka, Reika, Saito, Akira

    Published in Kidney international (01-03-2009)
    “…We used RNA interference, which causes sequence-specific degradation of target mRNAs to suppress the production of parathyroid hormone by cells of patients…”
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  4. 4
    CD133+ endothelial progenitor cells as a potential cell source for a bioartificial glomerulus

    CD133+ endothelial progenitor cells as a potential cell source for a bioartificial glomerulus by Vu, Duc M, Masuda, Haruchika, Yokoyama, Tun A, Fujimura, Satoshi, Kobori, Michiru, Ito, Rie, Sawada, Kaichiro, Saito, Akira, Asahara, Takayuki

    Published in Tissue engineering. Part A (01-10-2009)
    “…Development of a bioartificial glomerulus, a hemofilter in which the inner surface of hollow fibers is endothelialized, requires expandable, nonimmunogenic,…”
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  5. 5
    Prevention of LLC-PK(1) cell overgrowth in a bioartificial renal tubule device using a MEK inhibitor, U0126

    Prevention of LLC-PK(1) cell overgrowth in a bioartificial renal tubule device using a MEK inhibitor, U0126 by Inagaki, Miho, Yokoyama, Tun A, Sawada, Kaichiro, Duc, Vu M, Kanai, Genta, Lu, Jianxin, Kakuta, Takatoshi, Saito, Akira

    Published in Journal of biotechnology (15-10-2007)
    “…A common approach to construct a bioartificial renal tubule system is to utilize renal tubular cells seeded in porous polymer membrane hollow fibers. We have…”
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  6. 6
    Prevention of LLC-PK 1 cell overgrowth in a bioartificial renal tubule device using a MEK inhibitor, U0126

    Prevention of LLC-PK 1 cell overgrowth in a bioartificial renal tubule device using a MEK inhibitor, U0126 by Inagaki, Miho, Yokoyama, Tun A., Sawada, Kaichiro, Duc, Vu M., Kanai, Genta, Lu, Jianxin, Kakuta, Takatoshi, Saito, Akira

    Published in Journal of biotechnology (2007)
    “…A common approach to construct a bioartificial renal tubule system is to utilize renal tubular cells seeded in porous polymer membrane hollow fibers. We have…”
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