A comprehensive study on MDP effects: Microshear bond strength and fatigue resistance in 4YSZ ceramics.

Brazilian dental journal Pub Date : 2024-12-16 eCollection Date: 2024-01-01 DOI:10.1590/0103-644020246091

Lucas Saldanha da Rosa, Luiza Freitas Brum Souza, Gratcheva Falcão Chiapinotto, Telma de Souza Pires, Amanda Maria de Oliveira Dal Piva, Cornelis Johannes Kleverlaan, Gabriel Kalil Rocha Pereira

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Abstract

The aim of this study is to assess the presence of MDP at various stages of the bonding procedure, enhance the adhesive and mechanical behavior of cemented zirconia ceramics. Fifty ceramic slices (15 × 15 × 2 mm) and 48 discs (Ø= 10 mm, 1 mm thickness) were prepared, sintered, air-abraded with aluminum oxide, and allocated considering: 1) microshear bond strength (µSBS) between ceramic slices and luting agent cylinders (height= 1 mm, Ø= 1.2 mm); 2) fatigue behavior, ceramic discs paired and bonded onto fiber-epoxy resin discs (Ø= 10 mm, 2.5 mm thickness), and then mechanically tested (cyclic loading, starting at 400N, with increments of 100N, until failure). Four experimental groups were defined: Universal Primer (MDP primer+non-MDP resin cement - RC), Universal Adhesive (MDP adhesive+non-MDP RC), Cement (no primer+MDP RC), and Primer+Cement (MDP primer + MDP RC). For both outcomes, half of the specimens were tested after 24 hours, and half after aging. Bond strength data was analyzed via two-way ANOVA and Tukey post-hoc tests, while fatigue data went through Kaplan-Meier and Mantel-Cox post hoc tests. Regarding µSBS, aging impaired adhesion only for the Primer+Cement group (p<0.001). Universal Primer and Universal Adhesive showed the highest bond strength (p<0.05). Despite that, fatigue data indicates no significant differences (p>0.05). In conclusion, systems with MDP-containing components associated with non-MDP resin cement demonstrated enhanced adhesive capability for zirconia restorations. Nevertheless, no differences in terms of mechanical reinforcement were observed.

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MDP对4YSZ陶瓷微剪切粘结强度和抗疲劳性能的综合研究。

本研究的目的是评估MDP在粘合过程的各个阶段的存在，增强胶结氧化锆陶瓷的粘合和力学行为。制备了50片陶瓷片（15 × 15 × 2 mm）和48片陶瓷片（Ø= 10 mm，厚度1 mm），进行烧结，用氧化铝进行空气研磨，并根据以下因素进行分配：1)陶瓷片与润滑剂气缸（高度= 1 mm， Ø= 1.2 mm）之间的微剪切结合强度（µSBS）；2)疲劳性能，陶瓷盘配对并粘接在纤维环氧树脂盘（Ø= 10 mm， 2.5 mm厚度）上，然后进行机械测试（循环加载，从400N开始，以100N为增量，直到失效）。实验分为四组：通用底漆（MDP底漆+非MDP树脂水泥- RC）、通用胶粘剂（MDP胶粘剂+非MDP树脂水泥）、水泥（无底漆+MDP树脂水泥）和底漆+水泥（MDP底漆+MDP树脂水泥）。对于这两种结果，一半的标本在24小时后进行测试，另一半在老化后进行测试。粘结强度数据通过双向方差分析和Tukey事后检验进行分析，而疲劳数据通过Kaplan-Meier和Mantel-Cox事后检验进行分析。对于µSBS，老化只影响Primer+Cement组的粘附性（p0.05）。综上所述，含有mdp成分的体系与非mdp树脂水泥相结合，可以增强氧化锆修复体的粘附能力。然而，在机械强化方面没有观察到差异。

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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Brazilian dental journal

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