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Journal Abstract Search

193 related items for PubMed ID: 9626987

  • 1. The role of oxygen free radicals in cisplatin-induced acute renal failure in rats.
    Matsushima H, Yonemura K, Ohishi K, Hishida A.
    J Lab Clin Med; 1998 Jun; 131(6):518-26. PubMed ID: 9626987
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  • 2. Effects of oxygen free radical scavengers on uranium-induced acute renal failure in rats.
    Kato A, Hishida A, Nakajima T.
    Free Radic Biol Med; 1994 Jun; 16(6):855-9. PubMed ID: 8070692
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  • 3. Mechanisms for protective effects of free radical scavengers on gentamicin-mediated nephropathy in rats.
    Nakajima T, Hishida A, Kato A.
    Am J Physiol; 1994 Mar; 266(3 Pt 2):F425-31. PubMed ID: 8160791
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  • 4. Oxygen free radicals in ischemic acute renal failure in the rat.
    Paller MS, Hoidal JR, Ferris TF.
    J Clin Invest; 1984 Oct; 74(4):1156-64. PubMed ID: 6434591
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  • 5. Attenuation of cisplatin-induced acute renal failure is associated with less apoptotic cell death.
    Zhou H, Miyaji T, Kato A, Fujigaki Y, Sano K, Hishida A.
    J Lab Clin Med; 1999 Dec; 134(6):649-58. PubMed ID: 10595794
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  • 6. Hydroxyl radical scavenger ameliorates cisplatin-induced nephrotoxicity by preventing oxidative stress, redox state unbalance, impairment of energetic metabolism and apoptosis in rat kidney mitochondria.
    Santos NA, Bezerra CS, Martins NM, Curti C, Bianchi ML, Santos AC.
    Cancer Chemother Pharmacol; 2008 Jan; 61(1):145-55. PubMed ID: 17396264
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  • 8. Antioxidant ameliorates cisplatin-induced renal tubular cell death through inhibition of death receptor-mediated pathways.
    Tsuruya K, Tokumoto M, Ninomiya T, Hirakawa M, Masutani K, Taniguchi M, Fukuda K, Kanai H, Hirakata H, Iida M.
    Am J Physiol Renal Physiol; 2003 Aug; 285(2):F208-18. PubMed ID: 12684229
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  • 14. Roles of hemodynamic and tubular factors in gentamicin-mediated nephropathy.
    Hishida A, Nakajima T, Yamada M, Kato A, Honda N.
    Ren Fail; 1994 Aug; 16(1):109-16. PubMed ID: 8184137
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  • 15. Role of increased oxygen free radical activity in the pathogenesis of uremic hypertension.
    Vaziri ND, Oveisi F, Ding Y.
    Kidney Int; 1998 Jun; 53(6):1748-54. PubMed ID: 9607208
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  • 16. Effects of hydroxyl radical scavenging on cisplatin-induced p53 activation, tubular cell apoptosis and nephrotoxicity.
    Jiang M, Wei Q, Pabla N, Dong G, Wang CY, Yang T, Smith SB, Dong Z.
    Biochem Pharmacol; 2007 May 01; 73(9):1499-510. PubMed ID: 17291459
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  • 18. Interleukin-6 modulates oxidative stress produced during the development of cisplatin nephrotoxicity.
    Mitazaki S, Hashimoto M, Matsuhashi Y, Honma S, Suto M, Kato N, Nakagawasai O, Tan-No K, Hiraiwa K, Yoshida M, Abe S.
    Life Sci; 2013 Apr 09; 92(12):694-700. PubMed ID: 23384965
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  • 19. p38 MAP kinase inhibition ameliorates cisplatin nephrotoxicity in mice.
    Ramesh G, Reeves WB.
    Am J Physiol Renal Physiol; 2005 Jul 09; 289(1):F166-74. PubMed ID: 15701814
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