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Anxiety contributes to cobalt oxide nanoparticles-induced cytotoxicity and DNA harm in
Interaction with culture medium elements, cellular uptake and intracellular distribution of cobalt nanoparticles, microConduritol B epoxide site particles and ions in Balb/3 T3 mouse fibroblasts. 2013;eight:189?9. 44. Sabbioni E, Fortaner S, Farina M, Del Torchio R, Petrarca C, Bernardini G, et al. Interaction with culture medium elements, cellular uptake and intracellular distribution of cobalt nanoparticles, microparticles and ions in Balb/3 T3 mouse fibroblasts. Nanotoxicology. 2014;8:88?9. 45. Colognato R, Bonelli A, Ponti J, Farina M, Bergamaschi E, Sabbioni E, et al. Comparative genotoxicity of cobalt nanoparticles and ions on human peripheral leukocytes in vitro. Mutagenesis. 2008;23:377?two. 46. Annangi B, Bach J, Vales G, Rubio L, Marcos R, Hern dez A. Long-term exposures to low doses of cobalt nanoparticles induce cell transformation enhanced by oxidative harm. PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/25852654 48. De Boeck M, Lombaert N, De Backer S, Finsy R, Lison D, Kirsch-Volders M. In vitro genotoxic effects of distinct combinations of cobalt and metallic carbide particles. Mutagenesis. 2003;18(2):177?six. 49. AshaRani PV, Low Kah Mun G, Hande MP, Valiyaveettil S. Cytotoxicity and genotoxicity of silver nanoparticles in human cells. ACS Nano. 2009;three:279?0. 50. Kermanizadeh A, Gaiser BK, Hutchison GR, Stone V. An in vitro liver model ssessing oxidative stress and genotoxicity following exposure of hepatocytes to a panel of engineered nanomaterials. Component Fibre Toxicol. 2012;19:9?eight. 51. Magdolenova Z, Collins A, Kumar A, Dhawan A, Stone V, Dusinska M. Mechanisms of genotoxicity. A review of in vitro and in vivo studies with engineered nanoparticles. Nanotoxicology. 2014;8:233?8. 52. Chattopadhyay S, Dash SK, Tripathy S, Das B, Mandal D, Pramanik P, et al. Toxicity of cobalt oxide nanoparticles to regular cells; an in vitro and in vivo study. Chem Biol Interact. 2015;226:58?1. 53. Chattopadhyay S, Dash SK, Tripathy S, Das B, Kar Mahapatra S, Pramanik P, et al. Cobalt oxide nanoparticles induced oxidative tension linked to activation of TNF-/caspase-8/p38-MAPK PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/24069345 signaling in human leukemia cells. J Appl Toxicol. 2015;35:603?three. 54. Alinovi R, Goldoni M, Pinelli S, Campanini M, Aliatis I, Bersani D, et al. Oxidative and pro-inflammatory effects of cobalt and titanium oxide nanoparticles on aortic and venous endothelial cells. Toxicol In Vitro. 2015;29:426?7. 55. Ayala A, Mu z MF, Arg lles S. Lipid peroxidation: production, metabolism, and signaling mechanisms of malondialdehyde and 4-hydroxy-2-nonenal. Oxid Med Cell Longev. 2014;2014:360438. 56. Gonzalez L, Decordier I, Kirsch-Volders M. Induction of chromosome malsegregation by nanomaterials. Biochem Soc Trans. 2010;38:1691?. 57. Gonzalez L, Sanderson BJ, Kirsch-Volders M. Adaptations of the in vitro MN assay for the genotoxicity assessment of nanomaterials. Mutagenesis. 2011;26:185?1.58. Gonzalez L, Corradi S, Thomassen LC, Martens JA, Cundari E, Lison D, et al. Methodological approaches influencing cellular uptake and cyto-(geno) toxic effects of nanoparticles. J Biomed Nanotechnol. 2011;7:three?. 59. Fenech M. The in vitro micronucleus approach. Kirsch-Volders M, Sofuni T, Aardema M, Albertini S, Eastmond D, Fenech M, et al. Report from the In Vitro Micronucleus Assay Functioning Group. Environ Mol Mutagen. 2010;35:167?2. 61. Kirsch-Volders M, Sofu.
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