Bond Strength to Lithium-Disilicate Ceramic after Different Surface Cleaning Approaches.

Federico Del Bianco, Claudia Mazzitelli, Tatjana Maravic, Uros Josic, Federica Florenzano, Paolo Baldissara, Lorenzo Breschi, Annalisa Mazzoni
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Abstract

Purpose: To evaluate the effect of different lithium-disilicate (LiSi) glass-ceramic surface decontamination procedures on the shear bond strength (SBS) to resin cement.

Materials and methods: Seventy CAD/CAM LiSi ceramic specimens (IPS e.max CAD, Ivoclar) were cut and sintered. Fifty specimens were treated with 5% hydrofluoric acid (HF) for 20 s, while 20 were left untreated. All 70 specimens were then contaminated with human saliva and try-in silicone paste. The following surface cleaning methods were investigated (n = 10): C: water rinsing (control); PA: 37% H3PO4 etching for 20 s; E: 70% ethanol applied for 20 s; CP: cleaning paste (Ivoclean, Ivoclar) brushed for 20 s; HFSEP: self-etching ceramic primer (Monobond Etch&Prime, Ivoclar) rubbed for 20 s; HF: 5% HF applied for 20 s or no HF etching prior to contamination; SEP: self-etching ceramic primer rubbed for 20 s and no HF etching prior to contamination. Composite cylinders were created and luted with an adhesive resin cement to the decontaminated surfaces. After storage for 24 h at 37°C, the SBS test was conducted. Two fractured specimens per group were observed under SEM to perform fractographic analysis. The data were statistically analyzed with p set at <0.05.

Results: The type of surface cleaning approach influenced bond strength (p < 0.001). HFSEP, SEP, and HF attained higher SBS (p < 0.001) compared to other groups. None of the approaches were able to completely remove contaminants from the ceramic surfaces. SEM images showed residual traces of contaminants on CP-treated surfaces.

Conclusions: The self-etching ceramic primer enhanced bond strength to contaminated LiSi ceramic surfaces, irrespective of previous treatment with hydrofluoric acid.

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不同表面清洁方法后与二硅酸锂陶瓷的粘接强度
目的:评估不同的二硅酸锂(LiSi)玻璃陶瓷表面去污程序对树脂水门汀剪切粘结强度(SBS)的影响:切割并烧结 70 个 CAD/CAM LiSi 陶瓷试样(IPS e.max CAD,Ivoclar)。用 5% 的氢氟酸 (HF) 处理 50 个试样 20 秒,20 个试样不处理。然后用人类唾液和硅胶浆污染所有 70 个试样。研究了以下表面清洁方法(n = 10):C:水冲洗(对照组);PA:37% H3PO4 蚀刻 20 秒;E:70% 乙醇涂抹 20 秒;CP:清洁膏(Ivoclean,Ivoclar)刷洗 20 秒;HFSEP:自蚀陶瓷底漆(Monobond Etch&Prime,Ivoclar)摩擦 20 秒;HF:5% HF 涂抹 20 秒或污染前不进行 HF 蚀刻;SEP:自蚀陶瓷底漆摩擦 20 秒,污染前不进行 HF 蚀刻。制作复合材料圆柱体,并用树脂粘合剂将其粘接到已去污的表面。在 37°C 下存放 24 小时后,进行 SBS 测试。在扫描电镜下观察每组两个断裂的试样,进行断口分析。对数据进行了统计分析,P 为结果:表面清洁方法的类型会影响粘接强度(p < 0.001)。与其他组相比,HFSEP、SEP 和 HF 可获得更高的 SBS(p < 0.001)。没有一种方法能完全清除陶瓷表面的污染物。SEM 图像显示,CP 处理过的表面上仍有污染物残留:自酸蚀处理陶瓷底漆增强了受污染的 LiSi 陶瓷表面的粘接强度,与之前使用氢氟酸处理无关。
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