在正畸托槽下,向树脂改性玻璃离子水门汀中添加生物活性玻璃对牙釉质脱矿的影响。
Effect of addition of bioactive glass to resin modified glass ionomer cement on enamel demineralization under orthodontic brackets.
作者信息
Shirazi Maryam, Tamadon Mohamadali, Izadi Mozhgan
机构信息
Assistant Professor of Orthodontics, Dental Caries Prevention Research Center, Qazvin University of Medical Sciences, Qazvin, Iran.
General Dentist, Student Research Committee, Qazvin University of Medical Sciences, Qazvin, Iran.
出版信息
J Clin Exp Dent. 2019 Jun 1;11(6):e521-e526. doi: 10.4317/jced.55576. eCollection 2019 Jun.
BACKGROUND
Enamel demineralization and white spot lesions around orthodontic brackets is a common problem associated with fixed orthodontic treatment. Glass ionomer cements (GICs) are commonly used for bracket bonding and recently, bioactive glass (BAG) was added to GICs to enhance deposition of calcium phosphate in adjacent dental structure. This study sought to assess the effect of addition of BAG particles to resin modified GIC (RMGIC) on enamel demineralization under orthodontic brackets.
MATERIAL AND METHODS
In this , experimental study, 60 sound human premolars were immersed in distilled water at 6°C. The teeth were randomly divided into three groups. Using a sticker, a window measuring 7x7 mm was created on the buccal surface. The remaining surfaces were coated with nail varnish twice with a 3-hour interval. After 24 hours, the stickers were removed. Brackets were bonded to tooth surfaces using Transbond XT (control), Fuji II LC RMGIC and Fuji II LC containing 30% BAG particles. To induce acid attacks, the teeth were immersed in demineralizing solution for 6 hours. For pH cycling, the teeth were then immersed in remineralizing solution for 18 hours. This process was repeated for 21 days. Next, the teeth were longitudinally sectioned into two halves and the depth of demineralization was measured from the deepest point to the surface under a polarized light microscope. Data were analyzed using one-way ANOVA, and pairwise comparisons were carried out using Tukey's test.
RESULTS
The mean depth of demineralization was 73.8±22.29, 118.08±29.42 and 182.98±20.69 µm in the BAG, RMGIC and Transbond XT groups, respectively. One-way ANOVA showed significant differences in terms of depth of demineralization among the three groups (=0.0001). Tukey's test revealed significant differences in depth of demineralization.
CONCLUSIONS
Addition of BAG to RMGIC can significantly decrease the depth of enamel demineralization under orthodontic brackets . Remineralization, demineralization, orthodontic brackets, bioactive glass, resin modified glass ionomer cement.
背景
正畸托槽周围的牙釉质脱矿和白斑病变是固定正畸治疗中常见的问题。玻璃离子水门汀(GICs)常用于托槽粘结,最近,生物活性玻璃(BAG)被添加到GICs中,以增强磷酸钙在相邻牙齿结构中的沉积。本研究旨在评估向树脂改性GIC(RMGIC)中添加BAG颗粒对正畸托槽下牙釉质脱矿的影响。
材料与方法
在本实验研究中,将60颗健康的人类前磨牙浸泡在6°C的蒸馏水中。将牙齿随机分为三组。使用贴纸在颊面制作一个7×7mm的窗口。其余表面用指甲油涂覆两次,间隔3小时。24小时后,去除贴纸。使用Transbond XT(对照组)、Fuji II LC RMGIC和含30%BAG颗粒的Fuji II LC将托槽粘结到牙齿表面。为了诱导酸蚀,将牙齿浸泡在脱矿溶液中6小时。对于pH循环,然后将牙齿浸泡在再矿化溶液中18小时。这个过程重复21天。接下来,将牙齿纵向切成两半,并在偏光显微镜下从最深点到表面测量脱矿深度。使用单因素方差分析对数据进行分析,并使用Tukey检验进行两两比较。
结果
BAG组、RMGIC组和Transbond XT组的平均脱矿深度分别为73.8±22.29、118.08±29.42和182.98±20.69μm。单因素方差分析显示三组之间的脱矿深度存在显著差异(=0.0001)。Tukey检验显示脱矿深度存在显著差异。
结论
向RMGIC中添加BAG可显著降低正畸托槽下牙釉质脱矿的深度。再矿化、脱矿、正畸托槽、生物活性玻璃、树脂改性玻璃离子水门汀。
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