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首页> 外文期刊>Materials science & engineering >Biomechanical and biological evaluations of novel BPA-free fibre-reinforced composites for biomedical applications
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Biomechanical and biological evaluations of novel BPA-free fibre-reinforced composites for biomedical applications

机译:用于生物医学应用的新型BPA纤维增强复合材料的生物力学和生物学评价

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摘要

This aim was to assess the biomechanical and biocompatibility properties of novel glass fibre-reinforced composites (FRCs) with a fluorinated urethane dimethacrylate (FUDMA) resin. Three ratios of FUDMA/TEGDMA (30/70 wt%, 50/50 wt%, 70/30 wt%) and two ratios of control FRCs with bis-GMA/TEGDMA (50/50 wt% and 70/30 wt%) containing long silanized E-glass fibres were prepared. Despite 70 wt% bis-GMA-FRC showed a significantly higher flexural strength (p 0.05), 50 wt% FUDMA- and bis-GMA-FRCs were not differ from each other. The greatest surface hardness and weight increase after water storage were found in 70 wt% and 30 wt% FUDMA-FRCs, respectively. No significant difference was found in water sorption and solubility among all groups. Average surface roughness was 1.80 +/- 0.05 mu m, while 70 wt% FUDMA-FRC exhibited the greatest contact angle (p 0.05). Viabilities and ALP activities of MC3TC-E1 cells in all FUDMA-FRCs were higher than bis-GMA-FRCs after 5 days. To conclude, the novel FUDMA-FRCs are potential substitutes that exhibited superior cytocompatibility properties but comparable biomechanical properties to bis-GMA-FRCs.
机译:该目的是利用氟化氨基甲酸酯二甲基丙烯酸酯(FUDMA)树脂来评估新型玻璃纤维增​​强复合材料(FRC)的生物力学和生物相容性。 Fudma / TEGDMA的三个比率(30/70wt%,50 / 50wt%,70 / 30wt%)和双-GMA / TEGDMA的两种对照FRC(50/50wt%和70/30wt%)制备含有长硅烷化的E-玻璃纤维。尽管70%wt%BIS-GMA-FRC显示出明显较高的弯曲强度(P <0.05),50wt%Fudma-和BIS-GMA-FRC彼此没有不同。在70wt%和30wt%Fudma-Frcs中发现水储存后的最大表面硬度和体重增加。在所有群体中,水吸附和溶解度没有显着差异。平均表面粗糙度为1.80 +/-0.05μm,而70wt%Fudma-FRC表现出最大的接触角(P> 0.05)。在5天后,所有Fudma-FRC中MC3TC-E1细胞的使用和ALP活性高于BIS-GMA-FRC。为了得出结论,新型Fudma-FRC是潜在的替代品,其表现出优异的细胞织立性特性,而是对BIS-GMA-FRC的相当的生物力学性能。

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  • 来源
    《Materials science & engineering》 |2020年第12期|111309.1-111309.13|共13页
  • 作者

    Wang Ting; Matinlinna Jukka P.; He Jingwei; Ahmed Khaled E.; Burrow Michael F.;

  • 作者单位

    Univ Hong Kong Div Restorat Dent Sci Fac Dent Prosthodont Hong Kong Peoples R China|Univ Hong Kong Fac Dent Div Appl Oral Sci & Community Dent Care Dent Mat Sci Hong Kong Peoples R China|1B25 Prince Philip Dent Hosp Sai Ying Pun 34 Hosp Rd Hong Kong Peoples R China;

    Univ Hong Kong Fac Dent Div Appl Oral Sci & Community Dent Care Dent Mat Sci Hong Kong Peoples R China|1B30 Prince Philip Dent Hosp Sai Ying Pun 34 Hosp Rd Hong Kong Peoples R China;

    South China Univ Technol Coll Mat Sci & Engn Dept Polymer Mat Sci & Engn Guangzhou Peoples R China|381 Wushan Rd Guangzhou Peoples R China;

    Griffith Univ Sch Dent & Oral Hlth Prosthodont Discipline Gold Coast Australia;

    Univ Hong Kong Div Restorat Dent Sci Fac Dent Prosthodont Hong Kong Peoples R China|3B20 Prince Philip Dent Hosp Sai Ying Pun 34 Hosp Rd Hong Kong Peoples R China;

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  • 正文语种 eng
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  • 关键词

    BPA-free; Fibre-reinforced composite; Fluorinated urethane dimethacrylate; Biomaterial; Biocompatible;

    机译:无BPA;纤维增强复合材料;氟化氨基甲酸酯二甲基丙烯酸酯;生物材料;生物相容性;

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