FABIANA MEDEIROS DA SILVA
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Livro IPEN-doc 26714 O IPEN e a saúde2019 - LINARDI, MARCELO; NETTO, ANA P.F.A.; LUGAO, ADEMAR B.; FREITAS, ANDERSON Z. de; CARBONARI, ARTUR W.; ZEITUNI, CARLOS A.; SOARES, CARLOS R.J.; SILVA, CECILIA C.G. e; ZAMBONI, CIBELE B.; PERONI, CIBELE N.; VIEIRA, DANIEL P.; ANDRADE, DELVONEI A. de; ZEZELL, DENISE M.; LAZAR, DOLORES R.R.; PARRA, DUCLERC F.; MOREIRA, EDSON G.; LANDULFO, EDUARDO; FONSECA, EDVALDO R.P. da; PERINI, EFRAIN A.; ARAUJO, ELAINE B. de; MUCCILLO, ELIANA N. dos S.; CARVALHO, ELITA F.U. de; BERNARDES, EMERSON S.; MOURA, ESPERIDIANA A.B. de; SILVA, FABIANA M. da; MOREIRA, FERNANDO J.F.; SILVA, FLAVIA R. de O.; GENEZINI, FREDERICO A.; ALVES, GLAUCIE J.; YORIYAZ, HELIO; COSTA, ISOLDA; MENGATTI, JAIR; ROSSI, JESUALDO L.; OLIVEIRA, JOAO E. de; SARKIS, JORGE E. de S.; PERROTTA, JOSE A.; ROGERO, JOSE R.; SHORTO, JULIAN M.B.; SILVA, LEONARDO G. de A. e; MOLNARY, LESLIE de; RODRIGUES, LETICIA L.C.; DIAS, LIGIA E.M.F.; CALDAS, LINDA V.E.; POZZO, LORENA; GENOVA, LUIS A.; MATSUDA, MARGARETH M.N.; HAMADA, MARGARIDA M.; FELINTO, MARIA C.F. da C.; POTIENS, MARIA da P.A.; ROSTELATO, MARIA E.C.M.; MARUMO, MARIA H.B.; VASCONCELLOS, MARINA B.A.; RIBEIRO, MARTHA S.; COTRIM, MARYCEL E.B.; NEVES, MAURICIO D.M. das; MORALLES, MAURICIO; DIAS, MAURO da S.; IGAMI, MERY P.Z.; DURAZZO, MICHELANGELO; SUZUKI, MIRIAM F.; SAIKI, MITIKO; MATHOR, MONICA B.; VIEIRA JUNIOR, NILSON D.; BARTOLINI, PAOLO; SPENCER, PATRICK J.; SILVA, PAULO S.C. da; AFFONSO, REGINA; CARNEIRO, REGINA C.G.; ROGERO, SIZUE O.; SAKATA, SOLANGE K.; CASTANHO, SONIA R.H. de M.; MAIHARA, VERA A.; ROSSI, WAGNER de; CALVO, WILSON A.P.; KODAMA, YASKOResumo IPEN-doc 24267 Use of in vitro methods according to OECD GD 129 and OECD TG 439 to classify children′s articles aligned with the UN GHS principles2017 - DAMIANI, RENATA; FEITOSA, THAIS; DAKIC, VANJA; SILVA, JOSEMAR; CUNHA, TATIANA; NORONHA, MARCOS; HIGA, OLGA; ALEPEE, NATHALIE; PELLEVOISIN, CHRISTIAN; BACELLAR, MARIANO; BALOTTIN, LUCIENE; VECCHI, RODRIGO de; MEDEIROS, FABIANAAlternative Methods Network (RENAMA), National Institute of Metrology, Quality and Technology (INMETRO), Rio de Janeiro, Brazil, 4Schools Articles Safety Brazilian Technical Committee (CEE 102), Brazilian Association of Technical Standards (ABNT), São Paulo, Brazil, 5Biotechnology Department, Nuclear and Energy Research Institute (IPEN/CNEN-SP), São Paulo, Brazil, 6Research and Innovation, L’Oréal Research and Innovation, Aulnay-sous-bois, France, 7Research and Innovation, Episkin Academy, Lyon, France Schools Articles Safety Brazilian Technical Committee (TC/ABNT CEE 102) has taken up the challenge to update the national safety standard ABNT NBR 15236:2016 that complies with the regulations and guidelines on alternatives testing. The current aim was to provide an in vitro strategy for risk assessment of school articles with data integration following OECD GD129 & TG439. In Vitro Acute Toxicity and SkinEthicTM Reconstructed Human Epidermis Skin Irritation methods were adapted from medical devices protocols by measuring cytotoxic effects of extracts prepared according ISO10993. Results obtained on >150 school articles (pens, pencils, crayons, watercolor, adhesives, correction fluid) were reproducible. 100% concordance with UN GHS classification for discriminating approval (95%) versus non-approval (5%) was observed. In conclusion, these results are important to ensure that regulatory authorities in Brazil are provided with the appropriate data required for decision-making.Resumo IPEN-doc 24266 Cytotoxicity model using human cardiomyocytes derived from pluripotent cells (iPSCs) for cardiotoxicity safety assessment2017 - DAMIANI, RENATA; VALGODE, FLAVIA; PASSOS, PRISCILA; VALADARES, MARCOS; BIAGI, DIOGO; HIGA, OLGA; MEDEIROS, FABIANAIn contemporary drug development, preclinical and clinical evaluation, cardiac safety concerns arise from a variety of drug-tissue interactions, including direct myocyte toxicity. In this study, in vitro cytotoxic studies were conducted on GLP conditions in human cardiomyocytes derived from pluripotent cells (iPSCs). Before testing, cell population purity, above 90%, were confirmed by troponin 1 antibody biomarker. iPSCs cells were incubated with DMSO and Doxorubicin for 48 hours in a 96-well plates. Three different dyes – MTS, MTT and NR – were used to evaluate cell viability. The results showed that the iPSCs derived cardiomyocyte model was sensitive to predictive moderate and severe drug-induced cardiotoxicity. According to these results, the in vitro cytotoxicity model using iPSCs derived cardiomyocytes can be applied in the safety assessment of novel drug candidates as well as to identify compounds that may cause cardiotoxicity.Resumo IPEN-doc 23765 Mechanical and biological properties of bio-based scaffolds for tissue regeneration2016 - HIGA, O.Z.; CARNEIRO, T.M.; QUEIROZ, A.A. de; BARATELA, F.J.; SILVA, F.M. daGreen polymers derived from vegetable oils are promising materials for production of scaffolds for tissue engineering due to their low cost, availability and biodegradability. Unsaturated vegetable oils could be precisely engineered at a molecular level into renewable polymeric scaffolds in a way similar to some polymers derived from petroleum-based monomers. The reactivity of the unsaturated bonds of the triglycerides is what allows vegetable oil to be used in oil based polymers. Herein we report the first preparation of scaffolds for tissue engineering based on semi-interpenetrating networks from soybean oil. Materials and Methods: Initially, epoxidized soybean oil (ESO) was synthesized by the Prileshjew’s reaction. A solution of soybean oil (284 mM) and glacial formic acid (304 mM) was heated at a 50°C. Sulfuric acid (5 mM) was added into the solution. Then, H2O2 solution (1,032 mM) was added slowly from a dropping funnel and reacted at 50 °C for 7 h. The molar ratio of soybean oil: formic acid: hydrogen peroxide was 1:3:9. The crude product was filtered and washed thoroughly with distilled water until a pH of 7.0 was obtained. The oil phase was dried with anhydrous sodium sulfate and then filtered. Finally, the residual water was removed using a rotary evaporator at 50°C under vacuum. The epoxidation degree (ED) of ESO was calculated from the 1H-NMR. An ED of 75 % was obtained. Acrylated epoxidized soybean oil (AESO) was prepared after reaction between ESO and 2-hydroxyethyl methacrylate (HEMA). About 60 mM of ESO were placed in a 250 mL round-bottom flask equipped with a magnetic stirrer and a reflux condenser. Hydroquinone was used as a free radical inhibitor. The molar ratio of ESO: HEMA was 10:1. The reaction temperature under nitrogen atmosphere and time was 120 °C and 7 h, respectively. The reactional mixture was cooled to room temperature (25 oC) and diluted with hexane before purifying by thoroughly washing with distilled water. The final step was dehydration with anhydrous sodium sulfate and the solvent was evaporated using an evaporator. The number of HEMA groups/molecule of the resulting product was determined from the 1H-NMR spectrum. A mixture of AESO and 1 wt% of benzoyl peroxide was heated at 70°C for 20 min in a closed container before casting into a glass mold. Then, the mixture was cured at 90°C for 20 min in a thermal oven and at 90°C for 30 min in a vacuum oven sequentially. After washed thoroughly with distilled water the obtained membranes were lyophylized. Results and Discussion: Membrane surface and cross-section morphologies of the bio-based scaffolds were visualized by using SEM. As shown in this series of images, all the membranes have asymmetric structure consisting of a thin fine porous selective layer and much thicker porous sub-structure. The glass transition temperature (Tg) of the bio-based scaffolds were studied by differential scanning calorimetry (DSC). The Tg of PHEMA was 94°C while the Tg of the scaffold were in the range of –9 to 50°C. This may be due to the flexible and relatively short chains of the triglyceride in the produced bio-based scaffold contributed to the lower Tg. The Tg also depended on the number of HEMA groups. It was observed that more HEMA groups caused more crosslinking and produced a higher Tg. The biocompatibility evaluation of the biobased scaffolds provides encouraging indications for long-term safety. In fact, in the cytotoxicity study, the material extracts did not induce toxic effects on the Chinese hamster ovary (CHO) cells, showing high cell viability of the synthesized bio-based scaffolds. The values of Young modulus (250 kPa) along with the calculated molecular weight between crosslinks for swollen bio-based scaffolds were determined. As expected, the E value increased with increasing HEMA concentration in AESO due to the increased crosslinking density. However, the E values obtained for the bio-based scaffolds were comparable to human skin. Conclusions: The results obtained in this work indicate that the bio-based scaffolds could be a good candidate for the biomedical applications, such as wound dressing and scaffolds for tissue engineering. The authors would like to acknowledge the financial support from the CNPq, CAPES, FAPEMIG and FINEP.Artigo IPEN-doc 22032 Modelo in vitro para avaliação da hemocompatibilidade de acordo com a ISO10993-42014 - PASSOS, P.Q.S.; FEITOSA, T.C.; CUNHA, T.F.; MEDEIROS, F.; HIGA, O.Z.Artigo IPEN-doc 21121 In vitro citotoxicity testing of ubiquicidin 29-41-sup(99m)Tc2015 - OCAMPO, IVETTE Z.; OKAZAKI, KAYO; PASSOS, PRISCILA; ESTEVES PEDRO, NATALIA M.; DIAS, LUIS A.P.; HIGA, OLGA Z.; SILVA, FABIANA M. da; VIEIRA, DANIEL P.Resumo IPEN-doc 16439 Biological of a bioactive poly(e-caprolactone) matrice for tissue engineering2008 - MEDEIROS, FABIANA; HIGA, OLGA Z.; QUEIROZ, ALVARO A.A. deResumo IPEN-doc 16443 Poly(e-caprolactone) based biomaterial: pre-clinical evaluation2009 - MEDEIROS, F.; QUEIROZ, A.A.A. de; HIGA, O.Z.Resumo IPEN-doc 16207 The tissue response to a PCL/HA implant: a study in tibia bone rabbits2010 - MEDEIROS, FABIANA; MANETTA, PAULA; AMARAL, HELENA H.; RABIGHIERI, RICARDO; CUNHA, TATIANA F.; HAIMOFF, MONICA; QUEIROZ, ALVARO A.A. de; HIGA, OLGA Z.Resumo IPEN-doc 16206 In vitro biodegradation behavior of a novel PCL/HA polymer2010 - MEDEIROS, FABIANA; CUNHA, TATIANA F.; MANETTA, PAULA; RIBEIRO, CHRISTIANE; QUEIROZ, ALVARO A.A. de; HIGA, OLGA Z.