Effect of surface conditioning on the adhesive bond strength of 3D-printed resins used in permanent fixed dental prostheses

IF 5.5 2区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE Journal of dentistry Pub Date : 2025-02-06 DOI:10.1016/j.jdent.2025.105621

Marco Dederichs , Zaid Badr , Stephanie Viebranz , Sandor Nietzsche , Ulrike Schulze-Späte , Anne-Sophie Schmelzer , Thomas Lehmann , Arndt Guentsch

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Abstract

Objectives

Although pre-treatment parameters for subtractive computer-aided design/computer-aided manufacturing (CAD/CAM) materials have been thoroughly investigated, data regarding additive restorative materials designed for permanent use in the oral cavity are scarce. This study investigated the effects of abrasive materials and blasting pressure on the bond strength of 3D-printed resins used in permanent restorations.

Methods

A total of n = 44 test specimens additively manufactured from Formlabs’ `Permanent Crown Resin' were prepared. Three groups with n = 11 specimens were airborne-particle abraded with 50 µm aluminium oxide at 1 bar, 2 bar or 3 bar. The control group did not receive any further airborne-particle abrasion after post-processing with 50 µm glass beads. Cylindrical superstructures were bonded to the prepared surfaces using RelyX Unicem 2. The bonded specimens were then subjected to artificial ageing via thermocycling. Subsequently, shear bond strength (sbs) tests were conducted. Data were analysed with the Kruskal–Wallis test (α = 0.05).

Results

After post-processing with glass beads, average shear bond strength values of 10.13 ± 7.62 MPa were achieved. When using aluminium oxide and 1 bar blasting pressure, significantly higher average sbs values of 25.57 ± 7.04 MPa were revealed (p = 0.009). The bond strength increased with higher blasting pressures (28.14 ± 6.35 MPa at 2 bar (p = 0.005); 30.15 ± 6.46 MPa at 3 bar (p < 0.001)). However, the shear tests revealed increased failure within the specimen base at higher blasting pressures.

Conclusion

Bond strength significantly improved when airborne-particle abrasion with aluminium oxide was applied. However, increased airborne-particle abrasion pressure led to more failures at the base plate level of the specimens.

Clinical Significance

Aluminium oxide increases the adhesive strength of 3D-printed dental restorative materials. Although the adhesive bond increased slightly with increasing airborne-particle abrasion pressure, the 3D restorative materials also exhibited an increased failure rate within the restorative material in the shear bond strength test with increasing blasting pressure.

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表面调理对永久固定义齿3d打印树脂粘接强度的影响。

目的：虽然减法计算机辅助设计/计算机辅助制造（CAD/CAM）材料的预处理参数已经得到了深入的研究，但关于用于口腔永久使用的添加剂修复材料的数据很少。本研究探讨了磨料和爆破压力对用于永久性修复的3d打印树脂的结合强度的影响。方法：用Formlabs公司的“永久冠树脂”增材制造44个试件，n = 。三组（n = ）11个试样分别用50µm氧化铝在1 bar、2 bar和3 bar下进行空气颗粒磨损。对照组经50µm玻璃微珠后处理后，不再进行空气颗粒磨损。使用RelyX Unicem 2将圆柱形上层结构粘合到制备的表面上。然后通过热循环对粘结试样进行人工老化。随后进行剪切粘结强度（sbs）试验。采用Kruskal-Wallis检验（α = 0.05）对数据进行分析。结果：经玻璃微珠后处理后，平均抗剪强度为10.13±7.62 MPa。当使用氧化铝和1 bar爆破压力时，sbs的平均值显著高于平均值（25.57±7.04 MPa）（p = 0.009）。随着爆破压力的增加，粘结强度增大（2 bar时28.14±6.35 MPa）（p = 0.005）；30.15±6.46 MPa (p < 0.001))。然而，剪切试验显示，在较高的爆破压力下，试件基部的破坏增加。结论：采用气相氧化铝颗粒磨蚀法，可明显提高粘结强度。然而，随着空气颗粒磨损压力的增加，试件底板水平破坏增加。临床意义：氧化铝增加了3d打印牙体修复材料的粘接强度。随着空气颗粒磨损压力的增加，粘结强度略有增加，但随着爆破压力的增加，三维修复材料的剪切粘结强度试验中，修复材料内部的失败率也有所增加。

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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来源期刊

Journal of dentistry 医学-牙科与口腔外科

CiteScore

7.30

自引率

11.40%

发文量

349

审稿时长

35 days

期刊介绍： The Journal of Dentistry has an open access mirror journal The Journal of Dentistry: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. The Journal of Dentistry is the leading international dental journal within the field of Restorative Dentistry. Placing an emphasis on publishing novel and high-quality research papers, the Journal aims to influence the practice of dentistry at clinician, research, industry and policy-maker level on an international basis. Topics covered include the management of dental disease, periodontology, endodontology, operative dentistry, fixed and removable prosthodontics, dental biomaterials science, long-term clinical trials including epidemiology and oral health, technology transfer of new scientific instrumentation or procedures, as well as clinically relevant oral biology and translational research. The Journal of Dentistry will publish original scientific research papers including short communications. It is also interested in publishing review articles and leaders in themed areas which will be linked to new scientific research. Conference proceedings are also welcome and expressions of interest should be communicated to the Editor.