骨骼锚固Ⅲ类弹性牵引对上颌面部复合体的生物力学影响：三维有限元分析

Biomechanical effects of Skeletally anchored Class III elastics on the maxillofacial complex: a 3D finite element analysis.

作者信息

Rai Priyank, Garg Dhiraj, Tripathi Tulika, Kanase Anup, Ganesh Gayatri

机构信息

Department of Orthodontics and Dentofacial Orthopaedics, Maulana Azad Institute of Dental Sciences, Bahadur Shah Zafar Marg, New Delhi, 110002, India.

出版信息

Prog Orthod. 2021 Oct 25;22(1):36. doi: 10.1186/s40510-021-00375-3.

DOI:10.1186/s40510-021-00375-3

PMID:34693469

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8542527/

Abstract

BACKGROUND

Although, the outcomes and changes in the maxillofacial complex after the application of intraoral bone anchored Class III elastics, have been reported by multiple clinical studies, there was no finite element study to assess and evaluate the stress pattern and displacement on maxillomandibular complex with bimaxillary anchorage. The present study aims to evaluate the biomechanical effects on maxillomandibular complex of Skeletally anchored Class III elastics with varying angulations using the 3D finite element analysis.

METHODOLOGY

Two 3-dimensional analytical models were developed using the Mimics 8.11 (Materialise: Leuven, Belgium) and ANSYS software Version 12.1 (ANSYS Inc, Canonsburg, PA, USA) from sequential computed tomography images taken from a Skeletal Class III subject. The models were meshed into 465,091 tetrahedral elements and 101,247 nodes. Intraoral mechanics for skeletally anchored maxillary protraction (I-SAMP) were applied on two models i.e. A and B (without and with maxillary expansion respectively) between miniplates on maxilla and mandible on both right and left sides with three different angulations of forces-10°, 20° and 30°).

RESULTS

Although the craniomaxillary complex in both the models (A and B) displaced forward while demonstrating rotations in opposite directions, the displacements and rotations decreased gradually with the increase of the angle of load application from 10° to 30°. The mandible rotated clockwise in both the simulations, but the displacement of mandibular surface landmarks was higher in Simulation A. However, the antero-inferior displacement of the glenoid fossa was higher in Simulation B than in A.

CONCLUSION

Significant displacement of maxillofacial sutures and structures was witnessed with I-SAMP with maxillary expansion and Class III elastics for correction of Skeletal Class III with maxillary retrognathism. Thus, I-SAMP with maxillary expansion is a desired protocol for treatment of maxillary retrognathism. However, the prescribed angulation of the Class III elastics should be as low as possible to maximise the desired effects.

摘要

背景

尽管多项临床研究报告了应用口内骨锚定III类弹力牵引后颌面复合体的结果和变化，但尚无有限元研究来评估和评价双颌支抗时上颌下颌复合体的应力模式和位移。本研究旨在使用三维有限元分析评估不同角度的骨骼锚定III类弹力牵引对上颌下颌复合体的生物力学影响。

方法

使用Mimics 8.11（Materialise公司：比利时鲁汶）和ANSYS软件版本12.1（ANSYS公司，美国宾夕法尼亚州卡农斯堡），根据一名骨性III类受试者的连续计算机断层扫描图像建立了两个三维分析模型。模型被划分为465,091个四面体单元和101,247个节点。在模型A和B（分别为不进行上颌扩弓和进行上颌扩弓）上，在左右两侧上颌和下颌的微型钢板之间应用骨骼锚定上颌前牵引的口内力学（I-SAMP），施加三种不同角度的力——10°、20°和30°。

结果

尽管两个模型（A和B）中的颅上颌复合体均向前移位，同时表现出相反方向的旋转，但随着加载角度从10°增加到30°，位移和旋转逐渐减小。在两个模拟中，下颌均顺时针旋转，但模拟A中下颌表面标志点的位移更高。然而，模拟B中关节窝的前下位移比模拟A中的更高。

结论

使用I-SAMP联合上颌扩弓和III类弹力牵引矫正伴有上颌后缩的骨性III类错颌时，可见颌面缝线和结构有明显位移。因此，I-SAMP联合上颌扩弓是治疗上颌后缩的理想方案。然而，III类弹力牵引的规定角度应尽可能低，以最大化预期效果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dbda/8542527/69cb4f8f2bc2/40510_2021_375_Fig1_HTML.jpg

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骨骼锚固Ⅲ类弹性牵引对上颌面部复合体的生物力学影响：三维有限元分析

Biomechanical effects of Skeletally anchored Class III elastics on the maxillofacial complex: a 3D finite element analysis.

作者信息

机构信息

出版信息

BACKGROUND

METHODOLOGY

RESULTS

CONCLUSION

背景

方法

结果

结论

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