Influence of Continuous Rotation and Optimal Torque Reverse Kinematics on the Cyclic Fatigue Strength of Endodontic NiTi Clockwise Cutting Rotary Instruments.

IF 2.5 Q2 DENTISTRY, ORAL SURGERY & MEDICINE Dentistry Journal Pub Date : 2024-09-30 DOI:10.3390/dj12100317
Jorge N R Martins, Emmanuel J N L Silva, Duarte Marques, Marco A Versiani
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Abstract

Objectives: The objective of the present study was to evaluate the cyclic fatigue strength of clockwise cutting rotary endodontic instruments when subjected to two different kinematics: continuous clockwise rotation and clockwise reciprocation movement under optimum torque reverse (OTR) motion. Methods: New ProTaper Next X1 (n = 20) and X2 (n = 20) instruments were randomly divided into two subgroups (n = 10) based on kinematics (continuous rotation or OTR). The specimens were tested using a custom-made device with a non-tapered stainless-steel artificial canal measuring 19 mm in length, featuring a 6 mm radius and an 86-degree curvature. All instruments were tested with a lubricant at room temperature until a fracture occurred. The time to fracture and the length of the separated fragment were recorded. Subsequently, the fractured instruments were inspected under a scanning electron microscope for signs of cyclic fatigue failure, plastic deformation, and/or crack propagation. The subgroup comparisons for time to fracture and instrument length were performed using the independent samples t-test, with the level of statistical significance set at 0.05. Results: When using OTR movement, the ProTaper Next X1 increased the time to fracture from 52.9 to 125.8 s (p < 0.001), while the ProTaper Next X2 increased from 45.4 to 66.0 s (p < 0.001). No subgroup exhibited plastic deformations, but both showed dimpling marks indicative of cyclic fatigue as the primary mode of failure. Additionally, OTR movement resulted in more metal alloy microcracks. Conclusions: The use of OTR motion extended the lifespan of the tested instruments and resulted in a higher number of metal microcracks. This suggests that OTR motion helped to distribute the mechanical stress more evenly across the instrument, thereby relieving localized tension. As a result, it delayed the formation of a single catastrophic crack, enhancing the overall performance of the instruments during the experimental procedures.

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连续旋转和最佳扭矩反向运动学对牙髓镍钛顺时针切割旋转器械循环疲劳强度的影响
研究目的本研究的目的是评估顺时针旋转根管器械在两种不同运动方式下的循环疲劳强度:连续顺时针旋转和最佳扭矩反向(OTR)运动下的顺时针往复运动。方法:根据运动学(连续旋转或 OTR)将新型 ProTaper Next X1(n = 20)和 X2(n = 20)根管器械随机分为两组(n = 10)。试样使用定制的装置进行测试,该装置带有长度为 19 毫米、半径为 6 毫米、弧度为 86 度的非锥形不锈钢人工管道。所有仪器均在室温下使用润滑剂进行测试,直至发生断裂。记录断裂时间和分离碎片的长度。随后,在扫描电子显微镜下对断裂的仪器进行检查,以发现循环疲劳失效、塑性变形和/或裂纹扩展的迹象。断裂时间和器械长度的分组比较采用独立样本 t 检验,统计显著性水平设定为 0.05。结果使用 OTR 运动时,ProTaper Next X1 的断裂时间从 52.9 秒延长到 125.8 秒(p < 0.001),而 ProTaper Next X2 的断裂时间从 45.4 秒延长到 66.0 秒(p < 0.001)。没有子组出现塑性变形,但都出现了凹痕,表明循环疲劳是主要的失效模式。此外,OTR 运动导致更多的金属合金微裂纹。结论:使用 OTR 运动可延长测试仪器的使用寿命,并产生更多的金属微裂纹。这表明 OTR 运动有助于在整个仪器上更均匀地分布机械应力,从而缓解局部张力。因此,它推迟了单一灾难性裂纹的形成,提高了仪器在实验过程中的整体性能。
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来源期刊
Dentistry Journal
Dentistry Journal Dentistry-Dentistry (all)
CiteScore
3.70
自引率
7.70%
发文量
213
审稿时长
11 weeks
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