对准器生物力学:我们的现状和未来。

IF 2.6 Q1 DENTISTRY, ORAL SURGERY & MEDICINE
Tommaso Castroflorio , Simone Parrini , Gabriele Rossini
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引用次数: 0

摘要

作为传统牙套的替代品,对齐式正畸因其美观和舒适而大受欢迎。对准器正畸的生物力学原理在取得成功结果方面发挥着至关重要的作用。矫治器正畸的生物力学原理围绕着可控的施力、牙齿移动和组织反应。矫治器正畸中有效的生物力学包括对附着体设计和优化的加力系统的考虑。附着体是粘结在牙齿上的牙色形状,有助于扭力、旋转和挤压运动。优化的加力系统可确保力量沿着所需的运动路径引导,减少对周围组织不必要的压力。了解并掌握矫治器正畸的生物力学,对于正畸医生取得最佳治疗效果至关重要。这种方法需要仔细制定治疗计划,考虑每个患者特定错颌畸形所需的力学原理。随着矫治器正畸技术的不断发展,材料科学和治疗规划软件的进步有助于完善生物力学策略,提高治疗效率,扩大矫治器成功治疗的病例范围。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Aligner biomechanics: Where we are now and where we are heading for

Aligner orthodontics has gained significant popularity as an alternative to traditional braces because of its aesthetic appeal and comfort. The biomechanical principles that underlie aligner orthodontics play a crucial role in achieving successful outcomes.

The biomechanics of aligner orthodontics revolve around controlled force application, tooth movement, and tissue response.

Efficient biomechanics in aligner orthodontics involves consideration of attachment design and optimized force systems. Attachments are tooth-colored shapes bonded to teeth, aiding in torque, rotation, and extrusion movements. Optimized force systems ensure that forces are directed along the desired movement path, reducing unnecessary strain on surrounding tissues.

Understanding and manipulating the biomechanics of aligner orthodontics is essential for orthodontists to achieve optimal treatment outcomes. This approach requires careful treatment planning, considering the mechanics required for each patient's specific malocclusion. As aligner orthodontics continues to evolve, advances in material science and treatment planning software contribute to refining biomechanical strategies, enhancing treatment efficiency, and expanding the scope of cases that can be successfully treated with aligners.

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来源期刊
Journal of the World Federation of Orthodontists
Journal of the World Federation of Orthodontists DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
3.80
自引率
4.80%
发文量
34
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