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矿化液
    Compared with NaF and fluoride protector, the remineralization solution group had significant difference (P<0.001), but there was no significant difference between the NaF and fluoride protector(P>0.05).
    氟微量元素矿化液作用后牙釉质KHN升高最明显,与氟化钠、氟保护剂相比差异有统计学意义(P<0.001),氟化钠与氟保护剂相比差异无统计学意义(P>0.05)。
    THE INFLUENCE OF REMINERALIZATION SOLUTION CONTAINING TRACE DLEMENT ON GTF AND LDH
    氟微量元素矿化液对葡糖基转移酶及乳酸脱氢酶的影响
    Moreover,it also has obvious inhibitive effect on the enzyme activity of LDH( P <0.01),while the other two remineralization solution don′t( P >0.05).
    氟微量元素矿化液对 L DH酶活性具有明显的抑制作用 (P<0 .0 1) ,而无氟矿化液和含氟矿化液对其无明显的统计学意义 (P>0 .0 5 )。
    Conclusion:The fluoridated remineralization solution containing trace element has stronger inhibitive effect on the enzyme activity of GTF and LDH than simply fluoridate mineral solution.
    结论 氟微量元素矿化液比单氟矿化液具有更好的抑制致龋毒力因子 GTF和L DH酶活性的作用。
    The 28 samples were randomly assigned to the four study groups, in which each group was incubated in remineralization solution for 1, 3, 5, 10 days respectively.
    方法 从人第三磨牙切取 2 8块釉质片 (每片制备两条表层下釉质缺损 ) ,随机平分为 4组 ,每组分别于再矿化液中浸泡1、3、5、10d。
    The 28 samples were randomly assigned to the four study groups, in which each group was incubated in remineralization solution for 1,3,5,10 days respectively.
    2 8块釉质片被随机分为 4组 ,每组分别于再矿化液中浸泡 1、3、5、10天 ,然后进行切片放射影像和矿物质含量测定。
    Conclusion: The adhering ability to enamel by S. mutans after bleaching was enhanced, while simultaneously applying remineralization solution could reduce the adhesion of S. mutans to enamel surface after bleaching.
    结论 :漂白后变形链球菌在釉质表面的粘附能力增强 ,应用再矿化液有助于减少变形链球菌在漂白后釉质表面的粘附。
    METHODS: The root caries with chemical demineralization model was prepared. The samples were treated with 30mg/ml Chinese nutgall, 20g/L NaF, 380g/L Ag(NH3)2F and deionized water respectively, then were soaked in the remineralization solution for 7d. The surface morphology, lesion depth and total volume of demineralization were observed through SEM and MRG.
    方法:采用化学法制备根面龋模型,用500g/L五倍子提取液,380g/L氟化氨银液,20g/L氟化钠液和去离子水处理后放入再矿化液中7d,用扫描电镜和显微放射成像术分别观测其表面形态、龋损深度和脱矿量。
 

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