Effect of a 10-Methacryloyloxydecyl Dihydrogen Phosphate-treated Bioceramic Sealer on the Bond Strength of an Endodontic Fiber Post: Multilayer Composite Disk Models and Ultra-highspeed Imaging Analysis.

Chi-Hung Chen, Kuan-Han Lee, Ching-Chih Wei, Po-Yen Lin, Wan-Chuen Liao, Chih-Wen Chi, Alex S L Fok, Yu-Chih Chiang
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Abstract

Purpose: Multiple materials are found in the root canal after fiber-post cementation. The layer of a bioceramic-based (BC) sealer may affect the bond strength (σBS) of the fiber post in the root canal. The purpose of this study was to employ multilayer composite-disk models in diametral compression to investigate whether the bond strength between a fiber post and root dentin can be increased by the application of a primer on the BC sealer.

Materials and methods: The multilayers of materials in the root canal required 3D finite-element (FE) stress analyses (FEA) to provide precise σBS values. First, BC sealer was characterized using x-ray powder diffraction (XRD) to determine when the sealer completely set and the types of crystals formed to select which primer to apply to the sealer. We selected a 10-methacryloyloxydecyl dihydrogen phosphate (10-MDP)-based primer to treat the BC sealer before post cementation. Ultra-highspeed (UHS) imaging was utilized to analyze the crack initiation interface. The obtained failure force was used in FE analysis to calculate σBS.

Results: UHS imaging validated the fracture interface at the post-dentin junction as FEA simulations predicted. σBS values of the fiber posts placed with various material combinations in the root canal were 21.1 ± 3.4 (only cement/ post), 22.2 ± 3.4 (BC sealer/cement/post) and 28.6 ± 4.3 MPa (10-MDP primer treated BC sealer/cement/post). The 10-MDP-treated BC sealer exhibited the highest σBS (p < 0.05).

Conclusion: The multilayer composite disk model proved reliable with diametral compression testing. The presence of BC sealer in the root canal does not reduce σBS of the fiber post. Conditioning the BC sealer layer with 10-MDP primer before fiber-post cemen-tation increases σBS.

[10-甲基丙烯酰氧癸基磷酸二氢酯处理的生物陶瓷封闭剂对根管纤维桩粘结强度的影响:多层复合材料盘模型和超高速成像分析]。
目的:纤维桩固结后,根管内会发现多种材料。生物陶瓷基(BC)封闭剂层可能会影响根管内纤维桩的粘结强度(σBS)。本研究的目的是采用直径压缩的多层复合盘模型,研究在 BC 封层上涂抹底漆是否会增加纤维桩与根牙本质之间的粘结强度:根管内的多层材料需要三维有限元应力分析(FEA)来提供精确的 σBS 值。首先,使用 X 射线粉末衍射 (XRD) 对 BC 封闭剂进行表征,以确定封闭剂何时完全凝固以及形成的晶体类型,从而选择应用于封闭剂的底漆。我们选择了一种基于 10-甲基丙烯酰氧癸基磷酸二氢酯(10-MDP)的底漆,用于在后粘结前处理 BC 封闭剂。我们利用超高速(UHS)成像技术分析了裂纹起始界面。获得的破坏力用于 FE 分析以计算 σBS:在根管中放置不同材料组合的纤维桩的 σBS 值分别为 21.1 ± 3.4(仅水泥/桩)、22.2 ± 3.4(BC 密封剂/水泥/桩)和 28.6 ± 4.3 MPa(10-MDP 底漆处理 BC 密封剂/水泥/桩)。经 10-MDP 处理的 BC 密封胶的 σBS 值最高(p < 0.05):多层复合材料圆盘模型在直径压缩测试中证明是可靠的。根管内 BC 封闭剂的存在不会降低纤维桩的σBS。在纤维桩固位前用 10-MDP 底漆调节 BC 封闭层会增加 σBS。
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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