Mechanical deterioration of passive self-ligating lingual brackets under simulated prolonged use: An in vitro study.

IF 2.6 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

Journal of the World Federation of Orthodontists Pub Date : 2025-07-03 DOI:10.1016/j.ejwf.2025.05.007

Prasad Nalabothu, Konstantina Papadopoulou, Michel Dalstra, Giuseppe Scuzzo, Carlalberta Verna

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引用次数: 0

Abstract

Background: Passive, self-ligating lingual brackets are favored in Orthodontics for their simplified mechanism, eliminating the need for elastomeric and metallic ligatures. However, limited data exists on the effects of repeated use on their mechanical durability. An understanding of these effects is essential to ensure their long-term clinical performance. This study evaluates the mechanical degradation of the sliding cap locking mechanism of passive self-ligating lingual brackets after repeated opening and closing cycles.

Methods: In this in vitro study, 60 ALIAS mandibular incisor brackets were subjected to repeated opening and closing cycles (5, 10, 20, and 40 cycles). Mechanical tests were performed using an Instron 3344 electronic universal testing machine to measure maximum force at failure (F_max), energy absorption at F_max (U_max), and initial stiffness of the bracket opening mechanism (K).

Results: The sliding cap remained functional throughout the test period. However, a significant reduction in F_max, U_max, and K over multiple opening and closing cycles. F_max showed a significant reduction after 5 opening and closing cycles (P = 0.0069), U_max after 10 cycles (P = 0.0243), and K showed after 5 cycles (P = 0.0002). The F_max reached a plateau at about 8-10 Newtons after 10 cycles, U_max at about 2.0 mJ (millijoules), and K at 50 N/mm after 10 cycles.

Conclusions: The study highlights significant advantages of passive self-ligating lingual brackets, showcasing their excellent initial performance. While ALIAS brackets may experience minor mechanical deterioration of the properties, their overall performance remains strong enough for entire duration of orthodontic treatment (2-3 years).

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模拟长时间使用被动自结扎舌托的机械退化：一项体外研究。

背景：被动，自结扎舌托因其简化的机制，消除了对弹性和金属结扎的需要，在正畸治疗中受到青睐。然而，关于重复使用对其机械耐久性的影响的数据有限。了解这些影响对于确保其长期临床表现至关重要。本研究评估了被动自结扎舌托槽在反复打开和关闭循环后滑动帽锁定机制的力学退化。方法：对60例ALIAS下颌切牙托进行5、10、20、40个循环的反复开闭。力学试验采用Instron 3344电子万能试验机，测量支架开启机构的最大失效力（Fmax）、Fmax吸能（Umax）和初始刚度(K)。结果：滑动帽在整个测试期间保持功能。然而，在多个打开和关闭循环中，Fmax， Umax和K显着降低。Fmax在5个开合循环后显著降低（P = 0.0069）， Umax在10个循环后显著降低（P = 0.0243）， K在5个循环后显著降低（P = 0.0002）。10次循环后，Fmax在8-10牛顿左右达到平稳，Umax在2.0 mJ （millijoul）左右，K在50 N/mm左右。结论：该研究突出了被动自结扎舌托槽的显著优势，展示了其良好的初始性能。虽然ALIAS托槽可能会经历轻微的机械性能退化，但它们的整体性能仍然足够强大，可以在整个正畸治疗期间（2-3年）使用。

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 the World Federation of Orthodontists DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

3.80

自引率

4.80%

发文量