透过半透明氧化锆的衰减光对树脂水泥界面适应和聚合的影响。

Seung-Hoon Han, Yasushi Shimada, Alireza Sadr, Tomoko Tabata, Hisaichi Nakagawa, Takaaki Sato, Ji-Eun Byun, Sung-Ho Park
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引用次数: 0

摘要

目的:第一个目的是确定树脂水泥在减少光照下的双重固化是否会影响氧化锆修复体的界面适应性。第二个目的是检验通用粘合剂的水泥类型和预处理方法是否影响界面适应性。最后的目的是比较不同减光条件下水泥的聚合度。材料与方法:在拔除的第三磨牙上制备嵌体龋。使用Katana UTML(Kuraray Noritake)将半透明氧化锆修复体分为三组进行研磨,修复体厚度分别为1、2和3mm。每组有三个使用不同胶结方法的亚组。对于第1组,修复体用自粘水泥胶结。对于分组2,应用通用粘合剂并光固化。在用传统树脂水泥固定修复体之后,进行光固化。对于亚组3,在施用粘合剂后,用传统树脂水泥固定修复体。同时对粘合剂和水泥进行光固化。热循环后,使用扫描源光学相干断层成像研究了修复体-牙齿界面的界面适应性。最后,使用linometer测量水泥的聚合收缩,并在不同氧化锆厚度和光固化时间的条件下进行比较。结果:界面适应性随氧化锆的厚度、预处理、聚合方式和所用水泥的不同而有显著差异(p<0.05),这取决于氧化锆下的还原光(p<0.05)。结论:较低的固化光照度可能导致水泥的适应性较差,聚合度较低。树脂水泥的聚合作用可能因光照度和暴露时间而异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Attenuated Light Through Translucent Zirconia on the Interfacial Adaptation and Polymerization of Resin Cements.

Purpose: The first objective was to determine if dual-curing of resin cement with reduced light could affect interfacial adaptations of zirconia restoration. The second objective was to examine whether cement type and pretreatment method of universal adhesive affected interfacial adaptation. The final objective was to compare the polymerization degree of cement under different reduced-light conditions.

Materials and methods: Inlay cavities were prepared on extracted third molars. Translucent zirconia restorations were milled using Katana UTML (Kuraray Noritake) in three groups with restoration thicknesses of 1, 2, and 3 mm, respectively. Each group had three subgroups using different cementation methods. For subgroup 1, restorations were cemented with self-adhesive cement. For subgroup 2, universal adhesive was applied and light cured. After the restoration was seated with conventional resin cement, light curing was performed. For subgroup 3, after adhesive was applied, the restoration was seated with conventional resin cement. Light curing was performed for the adhesive and cement simultaneously. After thermocycling, interfacial adaptation at the restoration-tooth interface was investigated using swept-source optical coherence tomography imaging. Finally, polymerization shrinkage of the cement was measured using a linometer and compared under the conditions of different zirconia thicknesses and light-curing durations.

Results: Interfacial adaptation varied signficantly depending on the zirconia thickness, pretreatment, polymerization mode and cements used (p < 0.05). The effects of the adhesive and polymerization shrinkage differed signficantly, depending on the reduced light under the zirconia (p < 0.05).

Conclusion: Lower curing-light irradiance may lead to inferior adaptation and lower polymerization of the cement. Polymerization of resin cement can differ depending on the light irradiance and exposure duration.

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