基于腭侧斜面骨支抗扩弓器微螺钉位置的应力分布与位移分析：一项有限元研究

Analysis of Stress Distribution and Displacement Based on the Miniscrew Positions of the Palatal Slope Bone-borne Expander: A Finite Element Study.

作者信息

Leeisaramas Chakree, Chantarapanich Nattapon, Inglam Samroeng, Insee Kanlaya

机构信息

Division of Orthodontics, Faculty of Dentistry, Thammasat University, Pathum Thani, Thailand.

Digital Industrial Design and Manufacturing Research Unit and Department of Mechanical Engineering, Faculty of Engineering at Sriracha, Kasetsart University, Chonburi, Thailand.

出版信息

Eur J Dent. 2024 Oct;18(4):1012-1021. doi: 10.1055/s-0043-1777823. Epub 2024 Mar 31.

DOI:10.1055/s-0043-1777823

PMID:38555643

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11479739/

Abstract

OBJECTIVES

This study aimed to investigate the stress distribution pattern of the palatal slope bone-borne expander on the maxillary area according to a different anteroposterior position of anchored miniscrews using finite element analysis.

MATERIALS AND METHODS

Nasomaxillary stereolithography files with three different anteroposterior anchored miniscrew positions of the palatal slope bone-borne expander were determined as model A, B, and C. Each model consists of four supported miniscrews. Model A: two anterior miniscrews were located between the maxillary canine and the first premolar, and two posteriors between the second premolar and the first molar. Model B: two anteriors were between the lateral incisor and the canine, and two posteriors were the same as in model A. Model C: two anteriors were the same as in model A, and two posteriors were distal to the first molar. One turn of expander screws was applied. Maximum principal stress, equivalent elastic strain, equivalent von Mises stress, and transverse displacement were evaluated.

RESULTS

The maximum principal stress was mostly found at the bone-miniscrew interface. Model A exhibited an intersecting area of stress between the supported miniscrews. The highest value of principal stress was in model B, while model C showed a uniform distribution pattern. The elastic strain pattern was similar to the principal stress in all models. The highest value of equivalent von Mises stress was located on the expander screw. The largest amount of transverse displacement of teeth was in model A, while model C exhibited a more consistent transverse displacement than other models. Vertical displacement of posterior teeth was also noticed.

CONCLUSION

Based on the result, it revealed that the various anteroposterior miniscrew placements of the palatal slope bone-borne expander had various patterns of stress distribution and resulted in various outcomes. It may be inferred that model A's miniscrew location was advantageous for obtaining expansion quantities, but model C's miniscrew position was advantageous for maintaining consistent biomechanics.

摘要

目的

本研究旨在通过有限元分析，根据锚固微型螺钉在前后位置的不同，研究腭侧斜面骨支持式扩弓器在上颌区域的应力分布模式。

材料与方法

确定具有腭侧斜面骨支持式扩弓器三种不同前后锚固微型螺钉位置的鼻上颌立体光刻文件为模型A、B和C。每个模型由四个支持微型螺钉组成。模型A：两个前部微型螺钉位于上颌尖牙和第一前磨牙之间，两个后部微型螺钉位于第二前磨牙和第一磨牙之间。模型B：两个前部微型螺钉位于侧切牙和尖牙之间，两个后部微型螺钉与模型A相同。模型C：两个前部微型螺钉与模型A相同，两个后部微型螺钉位于第一磨牙远中。施加扩弓螺钉一圈。评估最大主应力、等效弹性应变、等效冯·米塞斯应力和横向位移。

结果

最大主应力大多出现在骨-微型螺钉界面处。模型A在支持微型螺钉之间呈现应力交叉区域。主应力最高值出现在模型B中，而模型C呈现均匀分布模式。所有模型中的弹性应变模式与主应力相似。等效冯·米塞斯应力最高值位于扩弓螺钉上。牙齿横向位移量最大的是模型A，而模型C的横向位移比其他模型更一致。还观察到后牙的垂直位移。

结论

基于结果表明，腭侧斜面骨支持式扩弓器微型螺钉在不同前后位置的放置具有不同的应力分布模式，并导致不同的结果。可以推断，模型A的微型螺钉位置有利于获得扩弓量，但模型C的微型螺钉位置有利于维持一致的生物力学。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd13/11479739/bfe01b7629b6/10-1055-s-0043-1777823-i2393058-1.jpg

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基于腭侧斜面骨支抗扩弓器微螺钉位置的应力分布与位移分析：一项有限元研究

Analysis of Stress Distribution and Displacement Based on the Miniscrew Positions of the Palatal Slope Bone-borne Expander: A Finite Element Study.

作者信息

机构信息

出版信息

OBJECTIVES

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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