四种不同的牙支抗和骨支抗青蛙矫治器用于磨牙远移的生物力学比较分析：一项三维有限元研究。

Comparative biomechanical analysis of four different tooth- and bone-borne frog appliances for molar distalization : A three-dimensional finite element study.

作者信息

Wang Xing-Yue, Li Dou, Xu Xin-Ran, Liu Jia-Rong, Al-Gumaei Waseem Saleh, Xue Hui, Wang Xiao-Ming

机构信息

Key Laboratory of Dental Maxillofacial Reconstruction and Biological Intelligence Manufacturing (NO: 20JR10RA653-ZDKF20210401), School of Stomatology, Lanzhou University, No. 199, Donggang West Road, 730000, Lanzhou, Gansu Province, China.

Department of Orthodontics, School of Stomatology, Lanzhou University, Lanzhou, Gansu Province, China.

出版信息

J Orofac Orthop. 2024 Aug 23. doi: 10.1007/s00056-024-00535-0.

DOI:10.1007/s00056-024-00535-0

PMID:39179928

Abstract

PURPOSE

The purpose of this study was to analyze the biomechanical effects of four different designs of frog appliances for molar distalization using finite element analysis.

METHODS

A three-dimensional finite element model including complete dentition, periodontal ligament, palatine, and alveolar bone was established. Four types of frog appliances were designed to simulate maxillary molar distalization: tooth-button-borne (Type A), bone-borne (Type B), bone-button-borne (Type C), and tooth-bone-borne (Type D) frog appliances. A force of 10 N was applied simulating a screw in the anteroposterior direction. To assess the von Mises stress distribution and the resultant displacements in the teeth and periodontal tissues, geometric nonlinear theory was utilized.

RESULTS

Compared to the conventional tooth-borne frog appliance (Type A), the bone-borne frog appliances showed increased first molar distalization with enhanced mesiolingual rotation and distal tipping, but the labial inclination and intrusion of the incisors were insignificant. When replacing the palatal acrylic button with miniscrews (Types B and D), more anchorage forces were transmitted from the first premolar to palatine bone, which was further dispersed by the assistance of a palatal acrylic button (Type C).

CONCLUSIONS

Compared to tooth-borne frog appliances, the bone-borne variants demonstrated a clear advantage for en masse molar distalization. The combined anchorage system utilizing palatal acrylic buttons and miniscrews (Type C) offers the most efficient stress distribution, minimizing force concentration on the palatine bone.

摘要

目的

本研究旨在通过有限元分析，分析四种不同设计的蛙式矫治器对磨牙远移的生物力学效应。

方法

建立包含全口牙列、牙周膜、腭部及牙槽骨的三维有限元模型。设计四种类型的蛙式矫治器以模拟上颌磨牙远移：托槽式（A型）、骨支抗式（B型）、骨-托槽式（C型）和牙-骨支抗式（D型）蛙式矫治器。在前后方向施加10 N的力模拟螺旋弹簧。利用几何非线性理论评估牙齿及牙周组织中的von Mises应力分布和位移结果。

结果

与传统的托槽式蛙式矫治器（A型）相比，骨支抗式蛙式矫治器使第一磨牙远移增加，近中舌向旋转及远中倾斜增强，但切牙的唇向倾斜和压低不明显。当用微型螺钉取代腭部丙烯酸托槽（B型和D型）时，更多的支抗力量从第一前磨牙传递至腭骨，在腭部丙烯酸托槽（C型）的辅助下进一步分散。

结论

与托槽式蛙式矫治器相比，骨支抗式矫治器在整体磨牙远移方面具有明显优势。利用腭部丙烯酸托槽和微型螺钉的联合支抗系统（C型）提供了最有效的应力分布，使腭骨上的力集中最小化。

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四种不同的牙支抗和骨支抗青蛙矫治器用于磨牙远移的生物力学比较分析：一项三维有限元研究。

Comparative biomechanical analysis of four different tooth- and bone-borne frog appliances for molar distalization : A three-dimensional finite element study.

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出版信息

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