Navegando por Palavras-chave "Biomaterials availability"

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    Characterization and biological evaluation of the introduction of PLGA into biosilicate
    (Wiley, 2017) Fernandes, Kelly Rossetti [UNIFESP]; Magri, Angela Maria Paiva [UNIFESP]; Kido, Hueliton Wilian [UNIFESP]; Ueno, Fabio Roberto [UNIFESP]; Assis, Livia [UNIFESP]; Fernandes, Kristianne Porta Santos; Mesquita Ferrari, Raquel Agnelli; Martins, V. C.; Plepis, Ana M.; Zanotto, Edgar Dutra; Peitl Filho, Oscar; Ribeiro, Daniel Araki [UNIFESP]; Van den Beucken, Jeroen J.; Renno, Ana Claudia Muniz [UNIFESP]
    The aims of this study were to characterize different BS/PLGA composites for their physicochemical and morphological characteristics and evaluate the in vitro and in vivo biological performance. The physicochemical and morphological modifications were analyzed by pH, mass loss, XRD, setting time, and SEM. For in vitro analysis, the osteoblast and fibroblast viability was evaluated. For in vivo evaluations, histopathology and immunohistochemistry were performed in a tibial defect in rats. After incubation, all composites presented lower values in pH and mass loss over time. Moreover, XRD and SEM analysis confirmed that the composites degraded over time. Additionally, pore formation was observed by SEM analysis after incubation mainly in BS/PLGA groups. BS/PLGA showed significantly increased in osteoblast viability 24 h. Moreover, BS/PLGA composites demonstrated an increase in fibroblast viability in all periods analyzed when compared to BS. In the in vivo study, after 2 and 6 weeks of implantation of biomaterials, histopathological findings revealed that the BS/PLGA composites degrades over time, mainly at periphery. Moreover, can be observed the presence of granulation tissue, bone formation, Runx-2, and RANKL immunoexpression in all groups. In conclusion, BS/PLGA composites present appropriate physicochemical characteristics, stimulate the cellular viability, and enhance the bone repair in vivo. (C) 2016 Wiley Periodicals, Inc.