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題名 | Liquid Crystalline Epoxy Nanocomposite Material for Dental Application= |
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作者 | Tai, Yun-yuan; Hsu, Sheng-hao; Chen, Rung-shu; Su, Wei-fang; Chen, Min-huey; |
期刊 | Journal of the Formosan Medical Association |
出版日期 | 20150100 |
卷期 | 114:1 2015.01[民104.01] |
頁次 | 頁46-51 |
分類號 | 416.98 |
語文 | eng |
關鍵詞 | Biocompatibility; Frictional force of dental brackets; Liquid crystalline epoxy nanocomposite; Microhardness; |
英文摘要 | Background/Purpose: Novel liquid crystalline epoxy nanocomposites, which exhibit reduced polymerization shrinkage and effectively bond to tooth structures, can be applied in esthetic dentistry, including core and post systems, direct and indirect restorations, and dental brackets. The purposes of this study were to investigate the properties of liquid crystalline epoxy nanocomposites including biocompatibility, microhardness, and frictional forces of bracket-like blocks with different filler contents for further clinical applications. Methods: In this study, we evaluated liquid crystalline epoxy nanocomposite materials that exhibited various filler contents, by assessing their cell activity performance using a 3-(4,5- dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay and their microhardness with or without thermocycling. We also evaluated the frictional force between bracket-like duplicates and commercially available esthetic bracket systems using Instron 5566. Results: The liquid crystalline epoxy nanocomposite materials showed good biocompatibility. The materials having high filler content demonstrated greater microhardness compared with commercially available bracket materials, before and after the thermocycling treatment. Thus, manufacturing processes are important to reduce frictional force experienced by orthodontic brackets. Conclusion: The microhardness of the bracket-like blocks made by our new material is superior to the commercially available brackets, even after thermocycling. Our results indicate that the evaluated liquid crystalline epoxy nanocomposite materials are of an appropriate quality for application in dental core and post systems and in various restorations. By applying technology to refine manufacturing processes, these new materials could also be used to fabricate esthetic brackets for orthodontic treatment. |
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