ELIZABETH SONODA KEIKO DANTAS
(Fonte: Lattes)
Resumo
Possui mestrado em Química pelo Instituto de Pesquisas Energéticas e Nucleares (1990) e doutorado em Química (Química Analítica) [Sp-Capital] pela Universidade de São Paulo (1999). Atualmente é pesquisador adjunto do Instituto de Pesquisas Energéticas e Nucleares. Tem experiência na área de Química, com ênfase em Análise de Traços e Química Ambiental, atuando principalmente nos seguintes temas: absorção atômica, cromatografia de íons, metais, especiação. (Texto extraído do Currículo Lattes em 04 maio 2023)
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Capítulo IPEN-doc 26715 Mercury exposure among dental staff in the Legal Amazon2019 - VILLIBOR, FERNANDA F.; GUILHEN, SABINE N.; DANTAS, ELIZABETH S.K.; PIRES, MARIA A.F.Elemental mercury is highly toxic and may be absorbed by dental professionals through direct skin contact or inhalation. The use of mercury in dental amalgam has been a concern of the academic community for years, for its incorporation is likely to affect vital organ systems. Several studies have been conducted to address the possible risks of occupational exposure to mercury vapor in dental offices. The present study aimed to present evidences that mercury is assimilated by exposed workers through the determination of urinary mercury (HgU) from dental professionals (n = 91) of public offices in Araguaína (Tocantins, Brazil). This uptake was verified against samples from unexposed individuals (n = 43), which activities are not dentistry related. Cold vapor atomic absorption spectrometry (CV-AAS) technique enabled the subjects’ biological monitoring. Approximately 44.8% (n = 60) of the 134 participants were aged between 21 and 30 years and were at the beginning of their professional lives; 9.7% (13) of the study participants were men and 90.3% (121) were women. Hg concentrations in all samples analyzed were within the maximum biological limit set by the World Health Organization (WHO) (<50 μgHg·L−1). HgU concentrations in dental professionals were within the limits proposed by the Brazilian regulatory standard, Regulatory Norm-7 (RN-7) (≤35 μgHg·g−1 creatinine). Nevertheless, the average concentration of HgU was approximately 8 times higher in the potentially exposed group (5.61 μgHg·g−1 creatinine) than in the unexposed group (0.65 μgHg·g−1 creatinine), highlighting the potential risk of occupational exposure to mercury.Artigo IPEN-doc 25789 Mercury exposure among dental staff in the legal Amazon2019 - VILLIBOR, FERNANDA F.; GUILHEN, SABINE N.; DANTAS, ELIZABETH S.K.; PIRES, MARIA A.F.Elemental mercury is highly toxic and may be absorbed by dental professionals through direct skin contact or inhalation. The use of mercury in dental amalgam has been a concern of the academic community for years, for its incorporation is likely to affect vital organ systems. Several studies have been conducted to address the possible risks of occupational exposure to mercury vapor in dental offices. The present study aimed to present evidences that mercury is assimilated by exposed workers through the determination of urinary mercury (HgU) from dental professionals (n = 91) of public offices in Araguaína (Tocantins, Brazil). This uptake was verified against samples from unexposed individuals (n = 43), which activities are not dentistry related. Cold vapor atomic absorption spectrometry (CV-AAS) technique enabled the subjects’ biological monitoring. Approximately 44.8% (n = 60) of the 134 participants were aged between 21 and 30 years and were at the beginning of their professional lives; 9.7% (13) of the study participants were men and 90.3% (121) were women. Hg concentrations in all samples analyzed were within the maximum biological limit set by the World Health Organization (WHO) (<50 μgHg·L−1). HgU concentrations in dental professionals were within the limits proposed by the Brazilian regulatory standard, Regulatory Norm-7 (RN-7) (≤35 μgHg·g−1 creatinine). Nevertheless, the average concentration of HgU was approximately 8 times higher in the potentially exposed group (5.61 μgHg·g−1 creatinine) than in the unexposed group (0.65 μgHg·g−1 creatinine), highlighting the potential risk of occupational exposure to mercury.Resumo IPEN-doc 22502 Metodologia de liofilização de urina para determinação de mercúrio inorgânico2015 - VILLIBOR, FERNANDA F.; GUILHEN, SABINE N.; DANTAS, ELIZABETH S.K.; PIRES, MARIA A.F.Resumo IPEN-doc 22507 Metodologia de liofilização de urina para determinação de mercúrio inorgânicoVILLIBOR, FERNANDA F.; GUILHEN, SABINE N.; DANTAS, ELIZABETH S.K.; PIRES, MARIA A.F.Publicação IPEN-doc 04590 Caracterizacao do polietileno reticulado por radiacao1993 - DANTAS, E.S.K.; NAKAHIRA, H.K.; LUGAO, A.B.; PIRES, M.A.F.Publicação IPEN-doc 04066 Termogravimetria na otimizacao de separacoes pirohidroliticas de cloreto em matriz zirconia-magnesia1992 - PIRES, M.A.F.; DANTAS, E.S.K.Resumo IPEN-doc 05042 Resumo IPEN-doc 16238 Determinacao de mercurio inorganico em amostras de urina2010 - CORDEIRO, LAIS W.; DANTAS, ELIZABETH S.K.Resumo IPEN-doc 01832 Cromatografia de ions na avaliacao da composicao quimica da agua de chuva - determinacao de anions1991 - PIRES, M.A.F.; DANTAS, E.S.K.Resumo IPEN-doc 04579 Cromatografia de ions na avaliacao da composicao quimica da agua de chuva. II - Determinacao de cations1992 - PIRES, M.A.F.; DANTAS, E.S.K.