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使用固定唇侧和舌侧装置扩展上颌后牙弓的生物力学。

The biomechanics of posterior maxillary arch expansion using fixed labial and lingual appliances.

出版信息

Angle Orthod. 2020 Sep 1;90(5):688-694. doi: 10.2319/010520-859.1.

DOI:10.2319/010520-859.1
PMID:33378485
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8032270/
Abstract

OBJECTIVE

To compare the biomechanics of straight labial, straight lingual, and mushroom lingual archwire systems when used in posterior arch expansion.

MATERIALS AND METHODS

An electro-mechanical orthodontic simulator allowing for buccal-lingual and vertical displacements of individual teeth and three-dimensional force/moment measurements was instrumented with anatomically shaped teeth for the maxillary arch. In-Ovation L brackets were bonded to lingual surfaces, and Carriere SLX brackets were bonded to labial surfaces to ensure consistency of slot dimensions. Titanium molybdenum archwires were bent to an ideal arch form, and the teeth on the orthodontic simulator were set to a passive position. Posterior teeth from the canine to second molar were moved lingually to replicate a constricted arch. From the constricted position, the posterior teeth were simultaneously moved until the expansive force decreased below 0.2 N. Initial force/moment systems and the amount of predicted expansion were compared for posterior teeth at a significance level of α = 0.05.

RESULTS

Archwire type affected both the expected expansion and initial force/moment systems produced in the constricted position. In general, the lingual systems produced the most expansion. The archwire systems were not able to return the teeth to their ideal position, with the closest system reaching 41% of the intended expansion.

CONCLUSIONS

In general, lingual systems were able to produce greater expansion in the posterior regions when compared with labial systems. However, less than half of the intended arch expansion was achieved with all systems tested.

摘要

目的

比较直唇侧、直舌侧和蘑菇舌侧弓丝系统在后牙弓扩展时的生物力学性能。

材料和方法

一种电动正畸模拟器,允许颊舌向和个别牙齿的垂直位移以及三维力/力矩测量,该模拟器配备了解剖形状的上颌弓牙齿。In-Ovation L 托槽粘接在舌侧表面,Carriere SLX 托槽粘接在唇侧表面,以确保槽尺寸的一致性。钛钼丝被弯曲成理想的弓形状,正畸模拟器上的牙齿被设置为被动位置。从尖牙到第二磨牙的后牙被向舌侧移动,以模拟一个狭窄的弓。从狭窄的位置开始,同时移动后牙,直到扩张力降至 0.2 N 以下。在 α = 0.05 的显著性水平下,比较了后牙在初始力/力矩系统和预测扩张量方面的差异。

结果

弓丝类型影响到狭窄位置产生的预期扩张和初始力/力矩系统。一般来说,舌侧系统产生的扩张量最大。弓丝系统无法使牙齿恢复到理想位置,最接近的系统达到了预期扩张的 41%。

结论

一般来说,与唇侧系统相比,舌侧系统在后牙区能够产生更大的扩张。然而,所有测试的系统都只能达到预期扩张的一半以下。

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本文引用的文献

1
Optimal force magnitude for bodily orthodontic tooth movement with fixed appliances: A systematic review.最佳力值在固定矫正器矫正牙齿移动中的应用:一项系统评价。
Am J Orthod Dentofacial Orthop. 2019 Nov;156(5):582-592. doi: 10.1016/j.ajodo.2019.05.011.
2
Speed of human tooth movement in growers and non-growers: Selection of applied stress matters.生长期与非生长期患者牙齿移动速度的比较:应重视施力的选择。
Orthod Craniofac Res. 2017 Jun;20 Suppl 1:63-67. doi: 10.1111/ocr.12161.
3
Measurement of forces and moments around the maxillary arch for treatment of a simulated lingual incisor and high canine malocclusion using straight and mushroom archwires in fixed lingual appliances.在固定舌侧矫治器中,使用直弓丝和蘑菇形弓丝测量围绕上颌牙弓的力和力矩,以治疗模拟的舌侧切牙和高位尖牙错牙合。
Eur J Orthod. 2017 Nov 30;39(6):665-672. doi: 10.1093/ejo/cjx028.
4
Stiffness comparison of mushroom and straight SS and TMA lingual archwires.蘑菇形与直形不锈钢及镍钛合金舌弓丝的刚度比较
Prog Orthod. 2016 Dec;17(1):27. doi: 10.1186/s40510-016-0140-2. Epub 2016 Sep 12.
5
Maxillary dental arch changes following the leveling and alignment stage with lingual and labial orthodontic appliances: a preliminary report of a randomized controlled trial.使用舌侧和唇侧正畸矫治器在整平排齐阶段后上颌牙弓的变化:一项随机对照试验的初步报告
J Contemp Dent Pract. 2014 Sep 1;15(5):561-6. doi: 10.5005/jp-journals-10024-1579.
6
Analysis of the torque capacity of a completely customized lingual appliance of the next generation.下一代完全定制舌侧矫治器的扭矩能力分析。
Head Face Med. 2014 Feb 7;10:4. doi: 10.1186/1746-160X-10-4.
7
A comparative assessment of torque generated by lingual and conventional brackets.舌侧和传统托槽产生的扭矩的比较评估。
Eur J Orthod. 2013 Jun;35(3):375-80. doi: 10.1093/ejo/cjs029. Epub 2012 May 9.
8
Accuracy in tooth positioning with a fully customized lingual orthodontic appliance.全定制舌侧矫治器中牙齿定位的准确性。
Am J Orthod Dentofacial Orthop. 2011 Sep;140(3):433-43. doi: 10.1016/j.ajodo.2011.01.020.
9
Lingual straight wire method.舌侧直丝弓矫治技术
Int Orthod. 2009 Dec;7(4):335-53. doi: 10.1016/S1761-7227(09)73507-7. Epub 2010 Jan 30.
10
Three-dimensional orthodontic force measurements.三维正畸力测量
Am J Orthod Dentofacial Orthop. 2009 Oct;136(4):518-28. doi: 10.1016/j.ajodo.2009.02.025.