Tarragó Celia, Valencia De Pablo Oliver, Loroño Gaizka, Conde Antonio, Perez Alfayate Ruth, Rossi Fedele Giampiero, Vera Jorge, Estevez Roberto
Postgraduate Programme in Endodontics, European University of Madrid, Madrid, Spain.
Adelaide Dental School, University of Adelaide, Adelaide, Australia.
Eur Endod J. 2025 May;10(3):237-241. doi: 10.14744/eej.2025.85547.
To compare the cyclic fatigue resistance of conventional and heat-treated "replica-like" reciprocating instruments with their original counterparts under single and double curvatures and assess tip size discrepancies against manufacturer-reported values.
Eighteen instruments were used per group for the study. Two measurements at the instrument's tip were made with a digital calliper. Cyclic fatigue resistance was evaluated under single (60°, 5 mm radius) and double curvatures (60°, 5 mm radius each) in a 37°C water bath. Time to fracture (seconds) was recorded and analysed with appropriate statistical tests (p=0.05).
The tip sizes of all instruments were smaller than the value purported by the manufacturers (0.25 mm) and outside the range of values obtained, with significant differences for all groups (p<0.001). Time to fracture were as follows: Reciproc R25: single curvature: 171.5+-38.9, double curvature: 133.4+-47.4; Reverso Silver: single curvature: 169.0+-104.8, double curvature: 57.8+-20.0; Reciproc Blue R25 single curvature: 355.4+-86.4, double curvature: 140.5+-67.7; Reverso Blue: single curvature: 359.5+-102.8, double curvature: 142.9+-69.0. Reverso Silver presented with a significantly lower time to fracture overall when compared with the Blue instruments (p=0.002) and with all instruments in double curvatures (p<0.05). In single curvatures, blue files had longer times to fracture (p<0.05). When comparing single versus double curvatures, only Reciproc R25 had no significant differences regarding time to fracture (p=0.54).
The tip sizes of the instrument tested were smaller than what is reported by the manufacturers. The cyclic fatigue resistance of the conventional 'replica-like' instrument (Reverso Silver) was significantly lower than the blue "heat-treated" comparators. Double curvature hastened fracture. (EEJ-2024-11-174).
比较传统型和热处理后的“仿形”往复式器械与其原始器械在单曲率和双曲率条件下的抗循环疲劳性能,并根据制造商报告的值评估尖端尺寸差异。
每组使用18根器械进行研究。用数字卡尺在器械尖端进行两次测量。在37°C水浴中评估单曲率(60°,5mm半径)和双曲率(各60°,5mm半径)条件下的抗循环疲劳性能。记录断裂时间(秒),并采用适当的统计检验进行分析(p = 0.05)。
所有器械的尖端尺寸均小于制造商声称的值(0.25mm),且超出所获值范围,所有组均存在显著差异(p < 0.001)。断裂时间如下:Reciproc R25:单曲率:171.5±38.9,双曲率:133.4±47.4;Reverso Silver:单曲率:169.0±104.8,双曲率:57.8±20.0;Reciproc Blue R25单曲率:355.4±86.4,双曲率:140.5±67.7;Reverso Blue:单曲率:359.5±102.8,双曲率:142.9±69.0。与蓝色器械相比,Reverso Silver的总体断裂时间显著更短(p = 0.002),且在双曲率条件下与所有器械相比均更短(p < 0.05)。在单曲率条件下,蓝色锉的断裂时间更长(p < 0.05)。比较单曲率和双曲率时,只有Reciproc R25在断裂时间方面无显著差异(p = 0.54)。
所测试器械的尖端尺寸小于制造商报告的值。传统的“仿形”器械(Reverso Silver)的抗循环疲劳性能显著低于蓝色“热处理”对照器械。双曲率加速了断裂。(EEJ - 2024 - 11 - 174)
