Impact of Shelf-Life Simulation on a Self-Adhesive Composite: Polymerization Kinetics, Chemical and Color Stability.

Helena Seoane, Filipa Chasqueira, Ana Mano Azul, Mário Polido, António Hs Delgado
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Abstract

Purpose: To determine the polymerization kinetics and color stability of a self-adhesive and conventional resin composite after accelerated shelf-life simulation.

Materials and methods: Two composites were tested - universal Filtek Z250 (3M Oral Care) and self-adhesive Constic (DMG). They were stored for 2 months in an incubator to simulate an Arrhenius aging model (60°C) and tested at 5 different time points. Polymerization kinetics (n = 3) were studied using an attenuated total reflectance technique (ATR), through continuous FTIR spectral acquisition (20 min). Spectra were obtained before, during and after 20 s of light curing. With the spectral data, qualitative analysis was performed yielding chemical stability, and quantitative data including extrapolated degree of conversion (DCmax) and polymerization rate (Rpmax) were assessed. To evaluate color stability (n = 3), a spectrophotometer was used to record CIELAB color parameters. Inferential statistics, including repeated measures two-way ANOVA were carried out at a significance level of 5%.

Results: The composites did not appear to undergo significant chemical changes after 2 months of accelerated aging. There was a significant impact of aging on the mean DCmax (p < 0.001). Similarly, a reduction in Rpmax, measured for both composites, was also noted (ANOVA; Z = 203.7; p < 0.001). The two-way ANOVA confirmed that the composite had no influence on the color stability (F = 0.94; p = 0.34), while aging did (p = 0.013).

Conclusion: Minimal changes in absorbance levels were noted for both composites, without overly affecting their chemical composition. The presence of an acidic monomer did not seem to potentiate the degradation of the self-adhesive composite. This composite even showed greater color stability after aging.

保质期模拟对自粘复合材料的影响:聚合动力学、化学和颜色稳定性。
目的:确定自粘和传统树脂复合材料在加速保质期模拟后的聚合动力学和颜色稳定性。材料和方法:测试了两种复合材料——通用Filtek Z250(3M口腔护理)和自粘Constic(DMG)。将它们在培养箱中储存2个月,以模拟Arrhenius老化模型(60°C),并在5个不同的时间点进行测试。通过连续FTIR光谱采集(20分钟),使用衰减全反射技术(ATR)研究聚合动力学(n=3)。在光固化20秒之前、期间和之后获得光谱。利用光谱数据进行定性分析,产生化学稳定性,并评估包括外推转化度(DCmax)和聚合速率(Rpmax)在内的定量数据。为了评估颜色稳定性(n=3),使用分光光度计记录CIELAB颜色参数。推断统计学,包括重复测量双向方差分析,以5%的显著性水平进行。结果:复合材料在加速老化2个月后似乎没有发生显著的化学变化。老化对平均DCmax有显著影响(p<0.001)。同样,两种复合物的Rpmax也有所降低(ANOVA;Z=203.7;p<0.001,而不会过度影响它们的化学成分。酸性单体的存在似乎不会增强自粘复合材料的降解。这种复合材料在老化后甚至表现出更大的颜色稳定性。
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