Bonding of Composite Cements Containing 10-MDP to Zirconia Ceramics Without Dedicated Ceramic Primer.

Renato Quirino Ramos, Ben Mercelis, Mohammed H Ahmed, Marleen Peumans, Guilherme Carpena Lopes, Bart Van Meerbeek
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Abstract

Purpose: To measure zirconia-to-zirconia microtensile bond strength (µTBS) using composite cements with and without primer.

Materials and methods: Two Initial Zirconia UHT (GC) sticks (1.8x1.8x5.0 mm) were bonded using four cements with and without their respective manufacturer's primer/adhesive (G-CEM ONE [GOne] and G-Multi Primer, GC; Panavia V5 [Pv5]), and Panavia SA Cement Universal [PSAu], and Clearfil Ceramic Plus, Kuraray Noritake; RelyX Universal (RXu) and Scotchbond Universal Plus [SBUp], 3M Oral Care). Specimens were trimmed to an hour-glass shaped specimen whose isthmus is circular in cross-section. After 1-week water storage, the specimens were either tested immediately (1-week μTBS) or first subjected to 50,000 thermocycles (50kTC-aged μTBS). The fracture mode was categorized as either adhesive interfacial failure, cohesive failure in composite cement, or mixed failure, followed by SEM fracture analysis of selected specimens. Data were analyzed using linear mixed-effects statistics (α = 0.05; variables: composite cement, primer/adhesive application, aging).

Results: The statistical analysis revealed no significant differences with aging (p = 0.3662). No significant difference in µTBS with/without primer and aging was recorded for GOne and PSAu. A significantly higher µTBS was recorded for Pv5 and RXu when applied with their respective primer/adhesive. Comparing the four composite cements when they were applied in the manner that resulted in their best performance, a significant difference in 50kTC-aged μTBS was found for PSAu compared to Pv5 and RXu. A significant decrease in µTBS upon 50kTC aging was only recorded for RXu in combination with SBUp.

Conclusion: Adequate bonding to zirconia requires the functional monomer 10-MDP either contained in the composite cement, in which case a separate 10-MDP primer is no longer needed, or in the separately applied primer/adhesive.

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含 10-MDP 的复合粘结剂与氧化锆陶瓷的粘结,无需专用陶瓷底漆。
目的:测量使用有底涂和无底涂复合水门汀的氧化锆-氧化锆微拉伸结合强度(µTBS):两个初始氧化锆 UHT(GC)棒(1.8x1.8x5.材料和方法:使用四种水门汀粘结两根初始氧化锆 UHT(GC)(1.8x1.8x5.0 毫米),并分别使用和不使用其各自制造商的底涂剂/粘合剂(G-CEM ONE [GOne] 和 G-Multi Primer,GC;Panavia V5 [Pv5])、Panavia SA Cement Universal [PSAu] 和 Clearfil Ceramic Plus,Kuraray Noritake;RelyX Universal (RXu) 和 Scotchbond Universal Plus [SBUp],3M Oral Care)。将试样修剪成小时玻璃形状,其峡部横截面为圆形。在水中存放 1 周后,立即对试样进行测试(1 周 μTBS)或首先对试样进行 50,000 次热循环测试(50kTC-aged μTBS)。断裂模式分为粘合界面断裂、复合水泥内聚断裂或混合断裂,然后对选定的试样进行 SEM 断裂分析。数据分析采用线性混合效应统计(α = 0.05;变量:复合水泥、底漆/粘合剂应用、老化):统计分析结果表明,龄期没有明显差异(p = 0.3662)。GOne 和 PSAu 在使用/不使用底漆和老化时的 µTBS 没有明显差异。Pv5 和 RXu 在使用各自的底层处理剂/粘合剂时,µTBS 明显更高。比较四种复合水泥的最佳应用方式,发现 PSAu 的 50kTC 老化 μTBS 与 Pv5 和 RXu 相比有显著差异。只有与 SBUp 结合使用的 RXu 在 50kTC 老化时,μTBS 才会明显下降:结论:与氧化锆的充分粘结需要功能单体 10-MDP,这种单体可以包含在复合水泥中(在这种情况下不再需要单独的 10-MDP 底漆),也可以包含在单独使用的底漆/粘合剂中。
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