Mechanical Behaviour of Orthodontic Auxiliary Photopolymerisable Resins in Simulated Oral Conditions: An In Vitro Study.

IF 3.1 Q2 DENTISTRY, ORAL SURGERY & MEDICINE Dentistry Journal Pub Date : 2025-01-31 DOI:10.3390/dj13020067

Riccardo Favero, Tommaso Zanetti, Vincenzo Tosco, Riccardo Monterubbianesi, Andrea Volpato

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Abstract

Background: The widespread adoption of clear aligners in orthodontic practice has driven the development of biomechanical devices to improve treatment efficiency. The mechanical properties of these materials play a critical role in determining their clinical performance and efficacy. This study investigates the Young's modulus of Clear-Blokker^® (Scheu Dental), a photopolymerisable resin used for the attachment of clear aligner, and evaluates its mechanical behaviour under different curing times (5 s and 10 s) and environmental conditions (dry storage and immersion in artificial saliva at 37 °C).

Methods: Forty-eight cylindrical specimens were prepared and subjected to quasistatic compression tests after 14 days. A multi-factorial analysis of variance (ANOVA) at a significance level of 5% was performed to compare the variances.

Results: The results showed that samples immersed in artificial saliva had significantly reduced Young's moduli compared to samples stored in dry conditions (p = 0.0213), while no significant difference was observed between curing times.

Conclusions: The results suggest that Clear-Blokker^® has mechanical properties comparable to those of clear aligner materials, making it suitable as a biomechanical aid for orthodontic treatment. However, further clinical studies are required to confirm its long-term efficacy in the oral environment.

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正畸辅助光聚合树脂在模拟口腔条件下的机械行为：体外研究

背景：清洁矫正器在正畸实践中的广泛应用，推动了生物力学装置的发展，以提高治疗效率。这些材料的机械性能在决定其临床性能和疗效方面起着至关重要的作用。本研究研究了clear - blokker®（Scheu Dental）的杨氏模量，这是一种用于透明对准剂附着的光聚合树脂，并评估了其在不同固化时间（5秒和10秒）和环境条件（37°C干燥储存和浸泡在人工唾液中）下的力学行为。方法：制备48个圆柱形试样，14d后进行准静态压缩试验。采用显著性水平为5%的多因子方差分析（ANOVA）比较方差。结果：结果表明，浸泡在人工唾液中的样品与干燥条件下的样品相比，杨氏模量显著降低（p = 0.0213），而不同的腌制时间之间没有显著差异。结论：结果表明，clear - blokker®具有与透明矫正材料相当的机械性能，适合作为正畸治疗的生物力学辅助材料。但其在口腔环境中的长期疗效有待进一步的临床研究证实。

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