{"title":"从无序运动中寻求有序:对透明矫治器生物力学的最新研究。","authors":"Jiawei Li, Jiarui Si, Chaoran Xue, Hui Xu","doi":"10.1186/s40510-024-00543-1","DOIUrl":null,"url":null,"abstract":"<p><strong>Introduction: </strong>Although with increasing popularity due to aesthetic appeal and comfort, clear aligners (CAs) are facing challenges in efficacy and predictability. Advancement in the underlying biomechanical field is crucial to addressing these challenges. This paper endeavors to provide a comprehensive framework for understanding the biomechanics of CA and enlightening biomechanics-based improvements on treatment strategies.</p><p><strong>Methods: </strong>A thorough review of the English-language literature accessible through PubMed and Google Scholar, without any publication year restrictions, was undertaken to unravel the biomechanical aspects of CA.</p><p><strong>Results: </strong>This review presented an up-to-date understanding of aligner biomechanics arranged by the framework of the material-dependent mechanical characteristics of CA, the geometric characteristics-dependent force transmission of the CA system, methods for studying the biomechanics of CA, and the biomechanical analyses for different types of tooth movement.</p><p><strong>Conclusions: </strong>Biomechanics should be the fundamental concern for concepts, methods and adjuncts attempting to enhance the accuracy and predictability of tooth movement induced by CA. Improvement on material properties and alteration of geometric design of CA are two main approaches to develop biomechanically optimized force system. Exploration of real-world force sensing and monitoring system would make substantial progresses in aligner biomechanics.</p>","PeriodicalId":56071,"journal":{"name":"Progress in Orthodontics","volume":"25 1","pages":"44"},"PeriodicalIF":4.8000,"publicationDate":"2024-11-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11570571/pdf/","citationCount":"0","resultStr":"{\"title\":\"Seeking orderness out of the orderless movements: an up-to-date review of the biomechanics in clear aligners.\",\"authors\":\"Jiawei Li, Jiarui Si, Chaoran Xue, Hui Xu\",\"doi\":\"10.1186/s40510-024-00543-1\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Introduction: </strong>Although with increasing popularity due to aesthetic appeal and comfort, clear aligners (CAs) are facing challenges in efficacy and predictability. 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This paper endeavors to provide a comprehensive framework for understanding the biomechanics of CA and enlightening biomechanics-based improvements on treatment strategies.</p><p><strong>Methods: </strong>A thorough review of the English-language literature accessible through PubMed and Google Scholar, without any publication year restrictions, was undertaken to unravel the biomechanical aspects of CA.</p><p><strong>Results: </strong>This review presented an up-to-date understanding of aligner biomechanics arranged by the framework of the material-dependent mechanical characteristics of CA, the geometric characteristics-dependent force transmission of the CA system, methods for studying the biomechanics of CA, and the biomechanical analyses for different types of tooth movement.</p><p><strong>Conclusions: </strong>Biomechanics should be the fundamental concern for concepts, methods and adjuncts attempting to enhance the accuracy and predictability of tooth movement induced by CA. Improvement on material properties and alteration of geometric design of CA are two main approaches to develop biomechanically optimized force system. 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引用次数: 0
摘要
导言:尽管透明矫治器(CA)因其美观和舒适而越来越受欢迎,但它在疗效和可预测性方面却面临着挑战。要应对这些挑战,生物力学领域的进步至关重要。本文试图提供一个全面的框架,以了解透明矫治器的生物力学,并启发基于生物力学的治疗策略改进:方法:本文对通过 PubMed 和谷歌学术搜索到的英文文献进行了全面综述,没有任何出版年份限制,旨在揭示 CA 的生物力学方面:结果:这篇综述介绍了对矫治器生物力学的最新理解,其框架包括:取决于矫治器材料的机械特性、取决于矫治器系统力传递的几何特性、研究矫治器生物力学的方法以及对不同类型牙齿移动的生物力学分析:生物力学应该是试图提高 CA 引起的牙齿移动的准确性和可预测性的概念、方法和辅助工具的基本关注点。改进 CA 的材料特性和改变 CA 的几何设计是开发生物力学优化力系统的两种主要方法。探索真实世界的力传感和监测系统将在矫治器生物力学方面取得重大进展。
Seeking orderness out of the orderless movements: an up-to-date review of the biomechanics in clear aligners.
Introduction: Although with increasing popularity due to aesthetic appeal and comfort, clear aligners (CAs) are facing challenges in efficacy and predictability. Advancement in the underlying biomechanical field is crucial to addressing these challenges. This paper endeavors to provide a comprehensive framework for understanding the biomechanics of CA and enlightening biomechanics-based improvements on treatment strategies.
Methods: A thorough review of the English-language literature accessible through PubMed and Google Scholar, without any publication year restrictions, was undertaken to unravel the biomechanical aspects of CA.
Results: This review presented an up-to-date understanding of aligner biomechanics arranged by the framework of the material-dependent mechanical characteristics of CA, the geometric characteristics-dependent force transmission of the CA system, methods for studying the biomechanics of CA, and the biomechanical analyses for different types of tooth movement.
Conclusions: Biomechanics should be the fundamental concern for concepts, methods and adjuncts attempting to enhance the accuracy and predictability of tooth movement induced by CA. Improvement on material properties and alteration of geometric design of CA are two main approaches to develop biomechanically optimized force system. Exploration of real-world force sensing and monitoring system would make substantial progresses in aligner biomechanics.
期刊介绍:
Progress in Orthodontics is a fully open access, international journal owned by the Italian Society of Orthodontics and published under the brand SpringerOpen. The Society is currently covering all publication costs so there are no article processing charges for authors.
It is a premier journal of international scope that fosters orthodontic research, including both basic research and development of innovative clinical techniques, with an emphasis on the following areas:
• Mechanisms to improve orthodontics
• Clinical studies and control animal studies
• Orthodontics and genetics, genomics
• Temporomandibular joint (TMJ) control clinical trials
• Efficacy of orthodontic appliances and animal models
• Systematic reviews and meta analyses
• Mechanisms to speed orthodontic treatment
Progress in Orthodontics will consider for publication only meritorious and original contributions. These may be:
• Original articles reporting the findings of clinical trials, clinically relevant basic scientific investigations, or novel therapeutic or diagnostic systems
• Review articles on current topics
• Articles on novel techniques and clinical tools
• Articles of contemporary interest
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