Chemical Stability of Bioglass in Simulated Oral Environment.

Journal of Dental Biomaterial Pub Date : 2016-09-01
Moazzami Sm, Sadid Zadeh R, Kianoush K, Sarmad M, Barani Karbaski F, Amiri Daluyi R, Kazemi Rb
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Abstract

Statement of problem: Bioglasses are a series of biocompatible dental materials, which are considered as light conducting inserts in resin composite restorations. Consequently, their chemical stability is more essential when they are used in conjunction with resin composite.

Objectives: The aim of this study was to evaluate and compare the chemical stability of Bioglass with dental porcelain and resin composite by determining the amount of released K+, Na+, Ca2+ ions and silicone elements from these materials as a result of exposure to tested solutions with different pH levels including: Sodium Bicarbonate [SB, (pH=9.2)], Sodium Buffer Lactate [SBL, (pH=2.4)], Acetic Acid [AA, (pH=2.4)], and Distilled Water [DW, (pH=6.2)].

Materials and methods: In this experimental study, forty 2.0 × 4.0 cylindrical rods for each tested material group (Dental porcelain, Resin composite and Bioglass) were prepared. They were divided into four subgroups of 10 rods each, which immersed in one of the four testing solutions in a designated container. The containers were stored at 50°C and 100% humidity for one week. The released ions were measured by using a spectrophotometer (µg/cm2/ml). The data were statistically analyzed by nonparametric Kruskal-Wallis H test.

Results: It was observed that the tested materials released ions at different levels of concentration. The significant amounts of Sodium, Calcium, and Silicon ions release were measured in Bioglass subgroups in all the tested solutions (p < 0.001). Potassium ion release from dental porcelain was the largest in all solutions except for AA in which Bioglass had the greatest potassium ion release (p < 0.001).

Conclusions: A greater structural instability was observed for Biogalss group than dental porcelain and resin composite in testing solutions with different pH levels.

Abstract Image

Abstract Image

Abstract Image

生物玻璃在模拟口腔环境中的化学稳定性
问题说明:生物玻璃是一系列生物相容性牙科材料,被认为是树脂复合修复体中的光传导插入物。因此,当它们与树脂复合材料结合使用时,它们的化学稳定性更为重要。目的:本研究的目的是通过测定暴露于不同pH水平的测试溶液(包括碳酸氢钠[SB, (pH=9.2)]、缓冲乳酸钠[SBL, (pH=2.4)]、醋酸[AA, (pH=2.4)]和蒸馏水[DW, (pH=6.2)])中,这些材料中K+、Na+、Ca2+离子和硅元素的释放量,来评估和比较牙科瓷和树脂复合生物玻璃的化学稳定性。材料与方法:在本实验研究中,每个测试材料组(牙科瓷、树脂复合材料和生物玻璃)制备了40根2.0 × 4.0圆柱形棒。他们被分成四组,每组10根棒,浸泡在指定容器中的四种测试溶液中的一种。容器在50°C和100%湿度下保存一周。用分光光度计测定释放离子(µg/cm2/ml)。采用非参数Kruskal-Wallis H检验对数据进行统计学分析。结果:观察到被测材料释放出不同浓度的离子。在所有测试溶液中,生物玻璃亚组的钠、钙和硅离子释放量显著(p < 0.001)。除AA溶液中生物玻璃的钾离子释放量最大外,所有溶液中牙瓷的钾离子释放量最大(p < 0.001)。结论:在不同pH值的测试溶液中,生物玻璃组的结构不稳定性大于牙瓷和树脂复合材料组。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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