"Enhancing Population’s Resistance to Toxic Exposures as an Auxilliary Tool of Decreasing Environmental and Occupational Health Risks (a Self-Overview)"
written by Boris A. Katsnelson, Larisa I. Privalova, Vladimir B. Gurvich, Sergey V. Kuzmin, Ekaterina P. Kireyeva, Ilzira A. Minigalieva, Marina P. Sutunkova, Nadezhda V. Loginova, Olga L. Malykh, Sergey V. Yarushin, Julia I. Soloboyeva, Natalia I. Kochneva,
published by Journal of Environmental Protection, Vol.5 No.14, 2014
has been cited by the following article(s):
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[18] Changes in the Dose–Response Relationship of One Toxicant Under Simultaneous Exposure to Another Toxicant
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[19] КОМБИНИРОВАННАЯ СУБХРОНИЧЕСКАЯ ТОКСИЧНОСТЬ НАНОЧАСТИЦ ОКСИДОВ НИКЕЛЯ И МАРГАНЦА И ЕЕ ОСЛАБЛЕНИЕ ОТ КОМПЛЕКСА …
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[20] БИОЛОГИЧЕСКАЯ ПРОФИЛАКТИКА КАК СПОСОБ ПОВЫШЕНИЯ УСТОЙЧИВОСТИ ОРГАНИЗМА К ДЕЙСТВИЮ ТОКСИЧЕСКИХ ФАКТОРОВ НА …
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[21] Some inferences from in vivo experiments with metal and metal oxide nanoparticles: the pulmonary phagocytosis response, subchronic systemic toxicity and …
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[22] Some inferences from in vivo experiments with metal and metal oxide nanoparticles: the pulmonary phagocytosis response, subchronic systemic toxicity and genotoxicity, regulatory proposals, searching for bioprotectors (a self-overview)
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[23] MAIN RESULTS OF TOXICOLOGICAL EXPERIMENTS IN VIVO WITH SOME METAL AND METAL OXIDES NANOPARTICLES.
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[24] Attenuation of combined nickel (II) oxide and manganese (II, III) oxide nanoparticles' adverse effects with a complex of bioprotectors
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[25] Is it possible to enhance the organism's resistance to toxic effects of metallic nanoparticles?
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[26] Some patterns of metallic nanoparticles' combined subchronic toxicity as exemplified by a combination of nickel and manganese oxide nanoparticles
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[27] Some inferences from in vivo experiments with metal and metal oxide nanoparticles: the pulmonary phagocytosis response, subchronic systemic toxicity and …
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