摘要
背景:进口自锁托槽价格昂贵,需要开发成本低、易操作的国产自锁托槽。目的:介绍一种新式托槽,并观察新研制自锁托槽的摩擦力。设计、时间及地点:生物力学对比实验,于2004-01在哈尔滨医科大学实验室完成。材料:自制自锁托槽和国产传统翼结扎不锈钢托槽各10个;国产Ni-Ti圆丝、澳大利亚不锈钢圆丝、国产不锈钢方丝各10根。方法:两种托槽与3种弓丝分别组合分组。在微电机的驱动下,以1mm/min的速度拖动拉力传感器,使另一端结扎在托槽内的弓丝受拉移动,模拟矫治过程中牙齿移动情况。主要观察指标:在存储示波器上观察波形并读取数据,测出各组摩擦力进行比较。结果:在其他条件相同的情况下,无论与哪种弓丝组合,翼结扎托槽的摩擦力均远大于自锁托槽(P<0.001)。无论与哪种托槽组合,Ni-Ti丝的摩擦力远大于澳丝和不锈钢方丝(P<0.001),方丝的摩擦力大于澳丝(P<0.01)。结论:自锁托槽属低摩擦托槽,符合口腔正畸科临床医生施加矫治力的要求。
BACKGROUND: Imported self-locking brackets cost much. So it is necessary to develop low-cost and easy-to-operate domestic self-locking brackets.
OBJECTIVE: To introduce a newly developed self-locking brackets, and investigate the frictional forces of the brackets.
DESIGN, TIME AND SETTING: Biomechanical controlled analysis was performed in the Laboratory of Harbin Medical University in January 2004.
MATERIALS: Self-made self-locking brackets and domestic conventional tie-wing stainless steel brackets; domestic Ni-Ti round wire, Australian stainless steel round wire, and domestic stainless steel rectangular wire.
METHODS: Two kinds of brackets were combined with three kinds of arch wires. Under the drive of micromotor, pull sensor moved at I mm/min. An arch wire, which was ligated in the bracket, was dragged. Thus, teeth's shift was imitated.
MAIN OUTCOME MEASURES: Waveshape was observed through the use of storage oscillograph and corresponding data were recorded. Frictional force was determined and compared.
RESULTS: Under the same other conditions, no matter which kind of arch wires were combined with, tie-wing brackets produced greater frictional force than self-locking brackets (P 〈 0.001 ). Under the same other conditions, no matter which kind of brackets were combined with, Ni-Ti wire produced greater frictional force than Australian stainless steel round wire and domestic stainless steel rectangular wire (P 〈 0.001 ). In addition, domestic stainless steel rectangular wires produced greater frictional force than Australian stainless steel round wires (P 〈 0.001 ).
CONCLUSION: Self-locking bracket produces low frictional force, so it is fit for orthodontic doctors to use the corrective force.
出处
《中国组织工程研究与临床康复》
CAS
CSCD
北大核心
2008年第30期5993-5996,共4页
Journal of Clinical Rehabilitative Tissue Engineering Research
