Biomaterials Research Centre, School of Dentistry, Shiraz University of Medical Sciences, Shiraz, Iran.
Department of Prosthodontics, School of Dentistry, Dicle University, Diyarbakir, Turkey.
J Dent. 2019 Oct;89:103177. doi: 10.1016/j.jdent.2019.07.015. Epub 2019 Jul 25.
To determine the effect of two resin-based coatings on the water sorption/solubility and colour change of three conventional and two resin modified glass ionomer cement restorative materials.
Five glass-ionomer cement (GIC) restorative materials and two nanofilled resin-based coatings were studied. Disc-shaped specimens of each material were prepared and divided into three groups, uncoated and coated with either of the two coatings tested (n = 8). Water sorption and solubility were measured in accordance with ISO 4049 and ISO 6876 instructions, respectively. For colour change, the specimens were immersed in distilled water for 24 h, then immersed for another 24 h and an extra week in the three solutions of lactic acid, coffee, and distilled water. The specimens were subjected to colour measurements, using a spectrophotometer after 24 h and 7 days of immersion. The colour change (ΔE) was calculated using a specific formula. ANOVA tests were used for data analysis.
Two-Way ANOVA revealed a significant interaction between materials and coatings for the water sorption/solubility values. Fuji Bulk showed the lowest water sorption/solubility and the coated groups showed a lower mean sorption/solubility and ΔE. The ΔE varied depending on the materials and the solutions.
Coating of GIC restoratives reduced the water sorption/solubility and ΔE of almost all materials with a significant decline in most of the materials.
Coating of GIC restorations in the oral environment with resin-based coating may protect the restorations from early water sorption/solubility and discolouration.
确定两种树脂基涂层对三种传统和两种树脂改性玻璃离子体水泥修复材料的水吸附/溶解度和颜色变化的影响。
研究了五种玻璃离子体水泥(GIC)修复材料和两种纳米复合树脂基涂层。制备了每种材料的圆盘状试件,并将其分为三组,未涂层和用两种测试涂层中的任一种进行涂层(n=8)。根据 ISO 4049 和 ISO 6876 的说明分别测量水吸附和溶解度。对于颜色变化,将试件浸入蒸馏水中 24 小时,然后再浸入另外 24 小时和一周的乳酸、咖啡和蒸馏水三种溶液中。用分光光度计在浸入 24 小时和 7 天后测量试件的颜色,用特定公式计算颜色变化(ΔE)。使用方差分析(ANOVA)进行数据分析。
双因素方差分析显示,材料和涂层之间的水吸附/溶解度值存在显著交互作用。富士大块显示出最低的水吸附/溶解度,涂层组显示出较低的平均吸附/溶解度和 ΔE。ΔE 取决于材料和溶液。
对 GIC 修复体进行涂层处理可降低几乎所有材料的水吸附/溶解度和 ΔE,大多数材料的下降幅度较大。
在口腔环境中对 GIC 修复体进行树脂基涂层处理可能会保护修复体免受早期的水吸附/溶解度和变色。
