腭侧弓丝尺寸和临时骨骼锚定装置位置对上颌磨牙内陷的影响

Xiaoting Wang, Yi-chen Zhao, Mingyue Fan, Ting Zhou, Bing Fang, Niansong Ye
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引用次数: 0

摘要

研究经腭裂(TPA)钢丝尺寸和临时骨骼锚定装置(TSAD)位置对上颌臼齿内陷的影响。 上颌臼齿内侵测量系统包括上颌丙烯酸模型、TPA、TSAD 和三维力/力矩(F/M)传感器。入侵模式分为六组:颊-颊面、颊-远侧、颊-密-密侧、腭-颊面、腭-远侧和腭-密-密侧。TPA 线的尺寸设计为 0.7 毫米、0.9 毫米和 1.2 毫米。上颌第一磨牙的力和力矩载荷由 F/M 传感器测量。 单个颊侧或腭侧 TSAD 引起扭转运动,而单个中侧或远侧 TSAD 则倾向于促进倾翻运动。中侧 TSAD 可消除倾倒,但会加剧扭转运动。TPA 能明显减少上颌第一磨牙沿三维轴线所受的力和力矩。TPA 金丝越粗,上颌第一磨牙受到的力和力矩就越小。 TSAD的精确放置可能会对牙齿移动产生重大影响,因此应根据具体的临床要求来确定。增加TPA钢丝的尺寸可以减少TSAD辅助上颌臼齿固位过程中的倾倒、扭转和旋转,但这些趋势并不能完全消除。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of transpalatal arch wire dimension and temporary skeletal anchorage device position on maxillary molar intrusion
To investigate the effects of transpalatal (TPA) wire dimension and temporary skeletal anchorage device (TSAD) position on maxillary molar intrusion. The maxillary molar intrusion measurement system included a maxillary acrylic model, TPA, TSADs, and a three-dimensional Force/Moment (F/M) sensor. The intrusion patterns were categorized into six groups: buccal-mesial, buccal-distal, buccal-mesiodistal, palatal-mesial, palatal-distal, and palatal-mesiodistal. TPA wire dimensions were designed to be 0.7 mm, 0.9 mm, and 1.2 mm. The force and moment loads of the maxillary first molar were measured by the F/M sensor. Single buccal or palatal TSADs induced torquing movement, and single mesial or distal TSADs tended to promote tipping movement. Mesiodistal TSADs would have eliminated tipping, but accentuated torquing movement. The TPA significantly reduced the force and moment experienced by the maxillary first molar along three-dimensional axes. The thicker the TPA wire, the smaller the force and moment to which the maxillary first molar was subjected. Precise placement of TSADs might have a substantial influence on tooth movement and should be determined in accordance with specific clinical requirements. Increasing the TPA wire dimension could diminish the tipping, torquing, and rotation during TSAD-assisted maxillary molar intrusion, but these tendencies could not be completely eliminated.
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