采用钛基基台的临时种植体支持单冠:一项关于粘结稳定性和拔出力的体外研究。
Temporary Implant-Supported Single Crowns Using Titanium Base Abutments: An In Vitro Study on Bonding Stability and Pull-out Forces.
出版信息
Int J Prosthodont. 2020 Sep/Oct;33(5):546-552. doi: 10.11607/ijp.6778.
PURPOSE
To evaluate the effect of cementation protocols on the bonding interface stability and pull-out forces of temporary implant-supported crowns bonded on a titanium base abutment (TiB) or on a temporary titanium abutment (TiA).
MATERIALS AND METHODS
A total of 60 implants were restored with PMMA-based CAD/CAM crowns. Five groups (n = 12) were created: Group 1 = TiB/SRc: crown conditioned with MMA-based liquid (SR Connect, Ivoclar Vivadent); Group 2 = TiB/50Al-MB: crown airborne particle-abraded with 50-μm AlO and silanized (Monobond Plus, Ivoclar Vivadent); Group 3 = TiB/30SiOAl-SRc: crown airborne particle-abraded with 30-μm silica-coated AlO (CoJet, 3M ESPE) and conditioned with MMA-based liquid (SR Connect); Group 4 = TiB/30SiOAl-MB: crown airborne particle-abraded with 30- μm silica-coated AlO (CoJet) and silanized (Monobond Plus); and Group 5 = TiA/TA-PMMA: crown manually enlarged, activated, and rebased with PMMA resin (Telio Lab, Ivoclar Vivadent). Specimens in the TiB groups were cemented using a resin cement (Multilink Hybrid Abutment, Ivoclar Vivadent). After aging (120,000 cycles, 49 N, 1.67 Hz, 5°C to 55°C, 120 seconds), bonding interface failure was analyzed (50x). Pull-out forces (N) (0.5 mm/minute) and modes of failure were registered. Chi-square and Kruskal-Wallis tests were used to analyze the data (α = .05).
RESULTS
Bonding failure after aging varied from 0% (Group 5) to 100% (Groups 1, 2, and 4) (P < .001). Mean pull-out force ranged between 53.1 N (Group 1) and 1,146.5 N (Group 5). The pull-off forces were significantly greater for Group 5 (P < .05), followed by Group 3 (P < .05), whereas the differences among the remaining groups were not significant (P > .05).
CONCLUSION
The cementation protocol had an effect on the bonding interface stability and pull-out forces of PMMA-based crowns bonded on a titanium base. Airborne particle abrasion of the crown internal surface and conditioning it with an MMA-based liquid may be recommended to improve retention of titanium base temporary restorations. Yet, for optimal outcomes, conventional temporary abutments might be preferred.
目的
评估粘结方案对粘结界面稳定性和临时种植体支持冠的拔出力的影响,这些冠分别粘结在钛基(TiB)或临时钛基(TiA)基台上。
材料和方法
共有 60 个种植体用聚甲基丙烯酸甲酯基 CAD/CAM 冠修复。创建了 5 个组(n = 12):组 1 = TiB/SRc:用 MMA 基液(SR Connect,Ivoclar Vivadent)处理的冠;组 2 = TiB/50Al-MB:用 50-μm AlO 进行空气动力颗粒喷砂并用硅烷化处理(Monobond Plus,Ivoclar Vivadent)的冠;组 3 = TiB/30SiOAl-SRc:用 30-μm 硅涂层 AlO 进行空气动力颗粒喷砂并用 MMA 基液处理的冠(SR Connect);组 4 = TiB/30SiOAl-MB:用 30-μm 硅涂层 AlO 进行空气动力颗粒喷砂并用硅烷化处理(Monobond Plus)的冠;组 5 = TiA/TA-PMMA:用 PMMA 树脂手动扩大、激活和重新基台的冠(Telio Lab,Ivoclar Vivadent)。TiB 组的试件用树脂粘结剂(Multilink Hybrid Abutment,Ivoclar Vivadent)粘结。老化后(120,000 次循环,49 N,1.67 Hz,5°C 至 55°C,120 秒),分析粘结界面失效情况(50x)。记录拔出力(N)(0.5 毫米/分钟)和失效模式。采用卡方检验和克鲁斯卡尔-沃利斯检验分析数据(α =.05)。
结果
老化后粘结失效从 0%(组 5)到 100%(组 1、2 和 4)不等(P <.001)。平均拔出力范围在 53.1 N(组 1)和 1,146.5 N(组 5)之间。组 5 的拔出力明显更大(P <.05),其次是组 3(P <.05),而其余组之间的差异无统计学意义(P >.05)。
结论
粘结方案对粘结界面稳定性和聚甲基丙烯酸甲酯基冠的拔出力有影响,这些冠分别粘结在钛基和临时钛基基台上。冠内表面的空气动力颗粒喷砂并用 MMA 基液处理可能有助于提高钛基临时修复体的固位力。然而,为了获得最佳效果,可能更倾向于使用传统的临时基台。
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