Daratsianos Nikolaos, Bourauel Christoph, Fimmers Rolf, Jäger Andreas, Schwestka-Polly Rainer
Department of Orthodontics,
Endowed Chair of Oral Technology.
Eur J Orthod. 2016 Oct;38(5):459-69. doi: 10.1093/ejo/cjv063. Epub 2015 Oct 30.
To determine the total torque play of various rectangular titanium molybdenum alloy (TMA)/stainless steel (SS) wires in various 0.018″ upper incisor lingual brackets and slot size measurements.
TMA (0.0175″ × 0.0175″, 0.0170″ × 0.025″, 0.0182″ × 0.0182″, 0.0182″ × 0.025″) and SS wires (0.016″ × 0.022″, 0.016″ × 0.024″, 0.018″ × 0.025″) were twisted in standard (Hiro, Incognito™, Joy®, Kurz 7th generation, STb™: fixation with elastic modules) and self-ligating brackets (Evolution SLT®, In-Ovation® L MTM: closed ligation mechanism) from -20 degrees to +20 degrees with a custom-made machine. The total torque play was calculated by extrapolating the linear portion of the twist/moment curves to the x-axis and adding the absolute negative and positive angle values at the intercepts. The bracket slot height was measured before and after the experiments with a series of pin gauges with round profile.
Brackets in ascending order for total torque play with the most slot-filling wire TMA 0.0182″ × 0.025″: Evolution SLT® (0 degree ± 0 degree), Incognito™ (2.2 degrees ±1.1 degrees), Hiro (5.1 degrees ±3.0 degrees), In-Ovation® L MTM (6.3 degrees ±2.2 degrees), STb™ (6.6 degrees ±1.8 degrees), Kurz 7th generation (7.1 degrees ±0.8 degrees), and Joy® (12.0 degrees ±0.8 degrees). Wires in ascending order for total torque play with the most precise slot Incognito™: TMA 0.0182″ × 0.025″ (2.2 degrees ±1.1 degrees), TMA 0.0182″ × 0.0182″ (2.4 degrees ±0.9 degrees), SS 0.018″ × 0.025″ (5.5 degrees ±1.0 degrees), TMA 0.0170″ × 0.025″ (9.4 degrees ±1.8 degrees), TMA 0.0175″ × 0.0175″ (13.0 degrees ±1.5 degrees), SS 0.016″ × 0.024″ (16.1 degrees ±1.4 degrees), SS 0.016″ × 0.022″ (17.8 degrees ±1.0 degrees); differences between some of the experimental groups were not statistically significant. Bracket slot dimensions in ascending order: Evolution SLT® (less than 0.452mm), Incognito™ (0.460mm ±0.002mm), In-Ovation® L MTM (0.469mm ±0.001mm), Hiro (0.469mm ±0.010mm), STb™ (0.471mm ±0.002mm), Kurz 7th generation (0.473mm ±0.002mm), and Joy® (greater than 0.498mm).
The applied method must be questioned when used with brackets with incomplete slot walls (Evolution SLT®). Slot measurement with pin gauges may not register bracket wing deformation.
All brackets showed a differing slot size from the nominal 0.018″ (0.457mm). Incognito™ presented the most precise and Joy® the widest slot. The main wires for the retraction phase SS 0.016″ × 0.022″/SS 0.016″ × 0.024″ showed poor torque control. Among the finishing TMA wires, TMA 0.0175″ × 0.0175″ exhibited the highest and TMA 0.0182″ × 0.0182″/TMA 0.0182″ × 0.025″ the smallest torque play.
The manufacturers could profit from this investigation towards optimization of the dimensional precision of their products. The orthodontist must be aware of the torque play of the wire-bracket combinations to be able to plan and individualize the appliance by third order customization.
确定不同的矩形钛钼合金(TMA)/不锈钢(SS)丝在各种0.018英寸上颌切牙舌侧托槽中的总扭矩游隙以及槽沟尺寸测量值。
使用定制机器,将TMA(0.0175英寸×0.0175英寸、0.0170英寸×0.025英寸、0.0182英寸×0.0182英寸、0.0182英寸×0.025英寸)和SS丝(0.016英寸×0.022英寸、0.016英寸×0.024英寸、0.018英寸×0.025英寸)在标准托槽(Hiro、Incognito™、Joy®、Kurz第7代、STb™:用弹性组件固定)和自锁托槽(Evolution SLT®、In - Ovation® L MTM:封闭结扎机制)中从 - 20度扭转至 + 20度。通过将扭转/力矩曲线的线性部分外推至x轴并将截距处的绝对负角度值和正角度值相加来计算总扭矩游隙。使用一系列圆形轮廓的销规在实验前后测量托槽槽沟高度。
对于总扭矩游隙,使用最能填充槽沟的TMA 0.0182英寸×0.025英寸丝时,托槽按总扭矩游隙升序排列为:Evolution SLT®(0度 ± 0度)、Incognito™(2.2度 ±1.1度)、Hiro(5.1度 ±3.0度)、In - Ovation® L MTM(6.3度 ±2.2度)、STb™(6.6度 ±1.8度)、Kurz第7代(7.1度 ±0.8度)、Joy®(12.0度 ±0.8度)。对于总扭矩游隙,使用最精确槽沟的Incognito™时,丝按升序排列为:TMA 0.0182英寸×0.025英寸(2.2度 ±1.1度)、TMA 0.0182英寸×0.0182英寸(2.4度 ±0.9度)、SS 0.018英寸×0.025英寸(5.5度 ±1.0度)、TMA 0.0170英寸×0.025英寸(9.4度 ±1.8度)、TMA 0.0175英寸×0.0175英寸(13.0度 ±1.5度)、SS 0.016英寸×0.024英寸(16.1度 ±1.4度)、SS 0.016英寸×0.022英寸(17.8度 ±1.0度);一些实验组之间的差异无统计学意义。托槽槽沟尺寸按升序排列为:Evolution SLT®(小于0.452mm)、Incognito™(0.460mm ±0.002mm)、In - Ovation® L MTM(0.469mm ±0.001mm)、Hiro(0.469mm ±0.010mm)、STb™(0.471mm ±0.002mm)、Kurz第7代(0.473mm ±0.002mm)、Joy®(大于0.498mm)。
当与槽沟壁不完整的托槽(Evolution SLT®)一起使用时,所应用的方法存在问题。用销规测量槽沟可能无法记录托槽翼的变形。
所有托槽的槽沟尺寸均与标称的0.018英寸(0.457mm)不同。Incognito™的槽沟最精确,Joy®的槽沟最宽。用于内收阶段的主要丝SS 0.016英寸×0.022英寸/SS 0.016英寸×0.024英寸扭矩控制较差。在最后的TMA丝中,TMA 0.0175英寸×0.0175英寸的扭矩游隙最大,TMA 0.0182英寸×0.0182英寸/TMA 0.0182英寸×0.025英寸的扭矩游隙最小。
制造商可从该研究中受益,以优化其产品的尺寸精度。正畸医生必须了解丝 - 托槽组合的扭矩游隙,以便能够通过三阶定制来规划和个性化矫治器。
