FERNANDA CAROLINE SILVA MAMEDE
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Resumo IPEN-doc 24938 Ecotoxicology as a tool in nanotechnology2017 - CAVALCANTE, A.K.; LUGAO, A.B.; ROGERO, J.R.; ROGERO, S.; MAMEDE, F.C.S.; MAZIERO, J.S.The commercial applications of nanoparticles are diverse, such as use in the food industry, textile industry, electronics, water treatment and products used in medicine and health. The increase in the production and use of nanoparticles has caused great concern about the potential impacts and risks that these can cause to the environment and to human health. Nanoparticles can be released to the environment in a variety of ways and can reach the aquatic ecosystem and pose biota risks. Ecotoxicology is the study of the behavior and transformations of chemical agents and abiotic factors in the environment, as well as their effects on biota. The evaluation of the toxicity of chemical agents in the aquatic environment occurs by means of ecotoxicological tests. The purpose of this review was to summarize some ecotoxicological assays by addressing some concepts and data from nanoparticle ecotoxicity assays in order to demonstrate that ecotoxicological evaluation is an important tool for nanotechnology and that it has efficient methodologies for analyzing the Environmental health of aquatic ecosystems.Artigo IPEN-doc 24928 In vitro and in vivo toxicity evaluation of resveratrol assisted gold nanoparticles2017 - BARROS, JANAINA A.G.; MAZIERO, JOANA S.; MAMEDE, FERNANDA C.S.; CAVALCANTE, ADRIANA K.; ROGERO, SIZUE O.; BATISTA, JORGE G.S.; VARCA, GUSTAVO H.C.; ROGERO, JOSE R.; LUGAO, ADEMAR B.Gold nanoparticles (AuNP) are being investigated for diagnostic and therapeutic nanomedicines considering their low toxicity and stability against oxidation, among other features. The increasing production and use of AuNP can result in release of them into aquatic environment and the impacts on the aquatic organisms are not clear and the safety of AuNPs are still under investigation. This work aimed analyze the toxicity of resveratrol assisted AuNP synthesized in buffer phosphate pH 7.0 with approximately 47 nm in DLS and 15 nm in TEM analysis and gold ionic solution (Au+3). Cytotoxicity by neutral red uptake method and acute ecotoxicological assay on Daphnia similis were used. AuNP presented no cytotoxicity up to 246 mg L-1 while Au+3 showed IC50=7.95 mg L-1. AuNP CE50 was 113.15 mg L-1 and for Au+3 0.05 mg L-1. More studies can be conducted for the determination of safety ionic Au+3 and AuNP concentrations in aquatic environment.