使用染料渗透法评估窝沟封闭剂和修复材料的微渗漏情况。
An Assessment of Microleakage of Pit and Fissure Sealants and Restorative Materials Using Dye Penetration Method.
作者信息
Arora Deval K, Maiti Niladri, Gaeta Carlo, Grandini Simone, Taraphder Rupsa, Kulasekaran Manoj, Bulbule Nilesh
机构信息
Department of Dentistry, Autonomous State Medical College, Shahjahanpur, Uttar Pradesh, India.
School of Dentistry, Central Asian University, Khorog, Tajikistan.
出版信息
J Pharm Bioallied Sci. 2025 May;17(Suppl 1):S394-S396. doi: 10.4103/jpbs.jpbs_1971_24. Epub 2025 Feb 15.
AIM
The study focused to determine the microleakage of various materials using the dye penetration method.
MATERIALS AND METHODS
The study samples consisted of 45 healthy human mandibular premolar teeth removed for orthodontic therapy without caries. The samples were categorized into three groups of 15 each. All the samples were etched for 20 seconds with 37% phosphoric acid gel before being sealed with a glass ionomer cement (GIC) sealant (Fuji-VII GIC), light-cure glass ionomer composite cement (Prevest Fusion I), or flowable nanocomposite sealants (Prevest Fusion Flo), respectively. Every sample were thermocycled and immersed for one day in methylene blue (5%) solution to dye diffusion between the gaps present among the tooth and restoration. The teeth were sectioned and analyzed using image analysis software beneath a stereomicroscope at 10x magnification.
RESULTS
The marginal microleakage was found lowest in flowable nanocomposites (1.06 ± 0.98), then light-cure glass ionomer composite cement (2.44 ± 1.42), and GIC (4.07 ± 1.54). A statistically significant variance was noted.
CONCLUSION
Current investigation evaluated that reduced marginal leakage was seen in flowable nanocomposites when compared to other two groups.
目的
本研究旨在使用染料渗透法测定各种材料的微渗漏情况。
材料与方法
研究样本包括45颗因正畸治疗而拔除的无龋健康人下颌前磨牙。样本分为三组,每组15颗。所有样本先用37%磷酸凝胶蚀刻20秒,然后分别用玻璃离子水门汀(GIC)封闭剂(Fuji-VII GIC)、光固化玻璃离子复合水门汀(Prevest Fusion I)或可流动纳米复合封闭剂(Prevest Fusion Flo)进行封闭。每个样本进行热循环处理,并在亚甲蓝(5%)溶液中浸泡一天,以使染料在牙齿与修复体之间的间隙中扩散。将牙齿切片,并在10倍放大率的体视显微镜下使用图像分析软件进行分析。
结果
边缘微渗漏在可流动纳米复合材料中最低(1.06±0.98),其次是光固化玻璃离子复合水门汀(2.44±1.42),GIC最高(4.07±1.54)。差异具有统计学意义。
结论
当前研究评估得出,与其他两组相比,可流动纳米复合材料的边缘渗漏减少。
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