Objectives The aim of this study was to evaluate the behavior of rat bone marrow stem cells seeded on a Ti-15Mo alloy surface modified by laser-beam irradiation followed by calcium phosphate deposition. Materials and methods A total of four groups were evaluated: polished commercially pure titanium (cpTi): Ti-P; laser irradiation + calcium phosphate deposition on cpTi: Ti-LCP; polished Ti-15Mo alloy: Ti15Mo-P; and laser irradiation + calcium phosphate deposition on Ti-15Mo alloy: Ti15Mo-LCP. Before and after laser irradiation and calcium phosphate deposition on the surfaces, physicochemical and morphological analyses were performed: Scanning Electron Microscopy (SEM) and Energy Dispersive Spectroscopy (EDX). The wettability of the samples was evaluated by contact angle measurement. In addition, the behavior of osteoblast-like cells to these surfaces was evaluated for cell morphology, adhesion, proliferation and viability, evaluation of alkaline phosphatase formation and gene expression of osteogenesis markers. Results Surfaces wet-abrade with grit paper (P) showed oriented groves, while the laser irradiation and calcium phosphate deposition (LCP) produced porosity on both cpTi and Ti15Mo alloy groups with deposits of hydroxyapatite (HA) crystals (SEM). EDX showed no contamination after surface modification in both metal samples. A complete wetting was observed for both LCP groups, whereas P surfaces exhibited high degree of hydrophobicity. There was a statistical difference in the intragroup comparison of proliferation and viability (p < 0.05). The ALP activity showed higher values in the Ti15Mo alloy at 10 days of culture. The gene expression of bone related molecules did not present significant differences at 7 and 14 days among different metals and surface treatments. Conclusion Ti15-Mo seems to be an alternative alloy to cpTi for dental implants. Surface treatment by laser irradiation followed by phosphate deposition seems to positively interact with bone cells. Clinical relevance Ti-15Mo alloy surface modified by laser-beam irradiation followed by calcium phosphate deposition may improve and accelerate the osseointegration process of dental implants.
ResumoIntrodução: As estatinas causaram uma revolução na prevenção e no tratamento do colesterol alto, porém é contraindicada no primeiro trimestre da gravidez, pois podem causar má formação no feto, no sistema nervoso central e nos membros. Objetivo: Verificar os efeitos da Sinvastatina na formação do palato e no desenvolvimento dos germes dentários dos primeiros molares superiores e inferiores. Material e método: Para o acasalamento, foram utilizados 14 camundongos fêmeas e quatro machos; o dia 'zero' da gestação foi identificado pelo plug vaginal após acasalamento. As fêmeas prenhes foram divididas em Grupos I e III -receberam 10 mg/kg solução salina em três semanas antes do acasalamento e a partir do acasalamento até o 14.º dia de prenhez, respectivamente. Grupos II e IV receberam 10 mg/kg de Sinvastatina, no período de três semanas antes do acasalamento e a partir do acasalamento até o 14.º dia de prenhez, respectivamente. Resultado: A análise histológica dos fetos dos Grupos I, II, III e IV mostrou o palato fusionado na linha mediana do processo palatino. Os germes dentários dos primeiros molares dos Grupos II e IV apresentaram um desenvolvimento atrasado quando comparados aos Grupos I e III, porém, todos estavam nas etapas de capuz e campânula. Conclusão: As análises histológica e estatística mostraram que os fetos apresentaram palato fusionado na linha média de fusão do processo palatino e os germes dentários dos Grupos II e IV mostraram-se com formas indefinidas e contornos irregulares. Este estudo preliminar mostrou que a Sinvastatina pode ocasionar alterações morfológicas nos germes dentários.Descritores: Odontogênese; Sinvastatina; colesterol. AbstractIntroduction: The statins have been strongly used for the prevention and treatment of high cholesterol, but are contraindicated in the first trimester of pregnancy because they may cause fetal malformation, affecting the central nervous system and the limbs. Objective: To investigate the effects of simvastatin in palate formation and development of tooth germs of the first upper and lower molars. Material and method: Fourteen female and 4 male mice were used for breeding. The day "zero" of pregnancy was identified by vaginal plug after mating. The pregnant females were divided into four groups. Animals from Groups I and III received daily 10 mg / kg of saline three weeks before mating and from mating through day 14 of pregnancy, respectively. Animals from Groups II and IV received daily 10 mg/kg of simvastatin in the 3 weeks prior to mating and from mating through day 14 of pregnancy, respectively. Result: Histological evaluation of fetuses from Groups I to IV showed fused palate. The first molar tooth germs from Groups II and IV showed up with undefined forms and jagged edges suggesting a slower development compared to Groups I and III, although all the samples were at the bell or hood development stages. . Conclusion: This preliminary study showed that simvastatin does not affect palate fusion but can cause morphologic alterations in tooth germs of fet...
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