Inhal Toxicol 2004, 16:437–445 CrossRef 30 Ai J, Biazar E, Jafar

Inhal Toxicol 2004, 16:437–445.CrossRef 30. Ai J, Biazar E, Jafarpour M, Montazeri M, Majdi A, Aminifard S, Zafari M, Akbari HR, Rad HG: Nanotoxicology and nanoparticle safety in biomedical designs.

Int J Nanomedicine 2011, 6:1117–1127. 31. Ruggiero A, Villa CH, Holland JP, Sprinkle SR, May C, Lewis JS, Scheinberg DA, McDevitt MR: Imaging and treating tumor vasculature with targeted radiolabeled carbon nanotubes. Int J Nanomedicine 2010, 5:783–802. 32. Longmire M, Choyke PL, Kobayashi H: Clearance properties of nano-sized particles and molecules selleckchem as imaging agents: considerations and caveats. Nanomedicine (Lond) 2008, 3:703–717.CrossRef 33. Daugaard G: Cisplatin nephrotoxicity: experimental and clinical studies. Dan Med Bull 1990, 37:1–12. 34. Brabec V, Kasparkova J: Modifications of DNA by platinum complexes. Relation to resistance of tumors to platinum antitumor drugs. Drug Resist Updat 2005, 8:131–146.CrossRef

35. Wang D, Lippard SJ: Cellular processing of platinum anticancer drugs. Nat Rev Drug Discov 2005, 4:307–320.CrossRef 36. Dobyan DC, Levi J, Jacobs C, Kosek J, Weiner MW: Mechanism of cis-platinum nephrotoxicity: II. Morphologic observations. J Pharmacol Exp Therapeut 1980, 213:551–556. 37. Miller RP, Tadagavadi RK, Ramesh G, Reeves WB: Mechanisms of cisplatin nephrotoxicity. Toxins 2010, 2:2490–2518.CrossRef 38. Litterst CL, Gram TE, Dedrick RL, Leroy AF, Guarino AM: Distribution and disposition of platinum following intravenous administration of Ganetespib concentration cis-diamminedichloroplatinum(II) (NSC 119875) to

dogs. Cancer AZD0156 manufacturer Res 1976, 36:2340–2344. 39. Asharani PV, Xinyi N, Hande MP, Valiyaveettil S: DNA damage and p53-mediated growth arrest in human cells treated with platinum nanoparticles. Nanomedicine (Lond) 2010, 5:51–64.CrossRef 40. Tanihara Y, Masuda S, Katsura T, Inui K: Protective effect of concomitant administration of imatinib on cisplatin-induced nephrotoxicity focusing on renal organic cation transporter OCT2. Biochem Pharmacol 2009, 78:1263–1271.CrossRef 41. Yonezawa A, Inui K: Organic cation transporter OCT/SLC22A and H(+)/organic cation antiporter MATE/SLC47A are key molecules for nephrotoxicity of platinum agents. Biochem Pharmacol 2011, 81:563–568.CrossRef Competing interests The authors declare that they have no competing interests. Authors’ selleck chemicals contributions AW, MK, and KY designed this study. YY (Yoshioka) and YT prepared samples. YY (Yamagishi), YH, and XL performed the experiments. AW and KY wrote this manuscript. All authors read and approved the final manuscript.”
“Background Continued research efforts over the past few decades on solar water splitting have led to a substantial improvement in both scientific understanding and technical application [1–4]. Because of its abundance, nontoxicity, and stability, TiO2 is one of the most promising photoanodes in the solar water splitting system.

Comments are closed.