[Cyclic fatigue resistance of nickel-titanium files made by Gold heat treatment in simulated S-shaped root canals at different temperatures].

Q3 Medicine

北京大学学报（医学版） Pub Date : 2025-02-18

Wenxin Chen, Xiaomei Hou

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引用次数: 0

Abstract

Objective: To compare the cyclic fatigue resistance of nickel-titanium files made by 3 new heat treatment in simulated S-shaped root canals at different temperatures.

Methods: Gold heat-treated nickel-titanium files TruNatomy (25 mm, tip size 26#/0.04) and ProTaper Gold (25 mm, tip size 25#/0.08) were selected as the experimental group, M wire technique nickel-titanium file ProTaper Next (25 mm, tip size 25#/0.06) was selected as the control group. It was speculated that the Gold technique used in TruNatomy nickel-titanium file was R phase separation technique, which included a complete intermediate R-phase, increasing its flexibility. ProTaper Gold was a CM wire nickel-titanium file and the increased phase transformation temperature by heat treatment introduced martensite at room temperature, while it underwent gold heat treatment on the surface, generating an intermediate R phase during phase transformation, providing hyperelastic. ProTaper Next used M wire technique, M wire included austenite at room temperature, where heat mechanical processing introduced hardened martensite, which was incapable of participating phase transformation. Because of the lower elastic modulus of hardened martensite than austenite, the flexibility of the file was increased. Twenty instruments of each nickel-titanium file were submitted to the cyclic fatigue test by using a simulated canal with double curvatures at room tem-perature (24 ℃) and 65 ℃, 10 instruments of each nickel-titanium file were selected at each temperature (n=10). At the same temperature, the number of cyclic fatigue (NCF) and fragment length were analyzed by using One-Way analysis of variance at a significance level of P < 0.05. NCF and fragment length of the same nickel-titanium file at room temperature and 65 ℃ were compared by paired sample t test and the significance level was α=0.05. Fractured surfaces were analyzed by using scanning electron microscope.

Results: In double-curved canals, all the failure of the files due to cyclic fatigue was first seen in the apical curvature before the coronal curvature. At room temperature, in the apical curvature, NCF of TruNatomy was 344.4±96.6, ProTaper Gold was 175.0±56.1, ProTaper Next was 133.3±39.7, NCF of Tru Natomy was the highest (P < 0.05). In the coronal curvature, NCF of TruNatomy was 618.3± 75.3, ProTaper Gold was 327.5±111.8, ProTaper Next was 376.6±67.9, NCF of TruNatomy was also the highest (P < 0.05). There was no significant difference among the apical and coronal fragment length of the 3 nickel-titanium files (P>0.05). At 65 ℃, in the apical curvature, NCF of TruNatomy was 289.6±65.8, ProTaper Gold was 187.5±75.4, ProTaper Next was 103.0±38.5, NCF of TruNatomy was the highest (P < 0.05). In the coronal curvature, NCF of TruNatomy was 454.2±45.4, ProTaper Gold was 268.3±31.4, ProTaper Next was 283.8±31.7, NCF of TruNatomy was also the highest (P < 0.05). The apical fragment length of ProTaper Next was the highest (P < 0.05), and there was no significant difference among coronal fragment length of the 3 nickel-titanium files (P>0.05). Compared with room temperature, at 65 ℃, in the coronal curvature, NCF of TruNatomy decreased significantly (P < 0.05). The fractured surfaces of the three nickel-titanium files demonstrated typical cyclic fatigue.

Conclusion: Gold heat-treated nickel-titanium file had better cyclic fatigue resistance than M wire nickel-titanium file in S-shaped root canals.

本刊更多论文

[不同温度下金热处理镍钛锉在模拟s形根管内的抗循环疲劳性能]。

目的：比较3种新型热处理方法制备的镍钛锉在不同温度下在模拟s形根管内的抗循环疲劳性能。方法：选择黄金热处理镍钛锉（25 mm，尖端尺寸26#/0.04）和ProTaper Gold （25 mm，尖端尺寸25#/0.08）作为实验组，M线技术镍钛锉ProTaper Next （25 mm，尖端尺寸25#/0.06）作为对照组。推测在TruNatomy镍钛锉中使用的Gold技术为R相分离技术，其中包含完整的中间R相，增加了其灵活性。ProTaper Gold是CM线镍钛锉，热处理后相变温度升高，在室温下引入马氏体，而其表面经过金热处理，相变过程中产生中间R相，具有超弹性。ProTaper Next采用M丝技术，M丝在室温下含有奥氏体，热机械加工引入硬化马氏体，无法参与相变。由于硬化马氏体的弹性模量低于奥氏体，提高了锉的柔韧性。在室温（24℃）和65℃双曲率模拟管中，每根镍钛锉各取20根，每根镍钛锉各取10根，n=10。在相同温度下，循环疲劳次数（NCF）和碎片长度采用单因素方差分析，显著性水平P < 0.05。同一镍钛锉在室温和65℃下的NCF和碎片长度采用配对样本t检验，显著性水平为α=0.05。用扫描电镜对断裂表面进行了分析。结果：在双弯曲根管中，由于循环疲劳引起的锉破坏首先出现在根尖弯曲处，而不是冠状弯曲处。室温下，在根尖曲率下，TruNatomy的NCF为344.4±96.6，ProTaper Gold为175.0±56.1，ProTaper Next为133.3±39.7，TruNatomy的NCF最高（P < 0.05）。在冠状曲率上，TruNatomy的NCF为618.3±75.3，ProTaper Gold为327.5±111.8，ProTaper Next为376.6±67.9，TruNatomy的NCF也最高（P < 0.05）。3种镍钛锉的尖、冠状碎片长度差异无统计学意义（P < 0.05）。65℃时，在根尖曲率下，TruNatomy的NCF为289.6±65.8，ProTaper Gold为187.5±75.4，ProTaper Next为103.0±38.5，以TruNatomy的NCF最高（P < 0.05）。在冠状曲率上，TruNatomy的NCF为454.2±45.4，ProTaper Gold为268.3±31.4，ProTaper Next为283.8±31.7，TruNatomy的NCF也最高（P < 0.05）。ProTaper Next的根尖碎片长度最大（P < 0.05）， 3种镍钛锉冠状碎片长度差异无统计学意义（P < 0.05）。与室温相比，在65℃冠状曲率下，TruNatomy的NCF显著降低（P < 0.05）。三种镍钛锉的断裂表面表现出典型的循环疲劳。结论：金热处理镍钛锉在s型根管内的抗循环疲劳性能优于M丝镍钛锉。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

北京大学学报（医学版） Medicine-Medicine (all)

CiteScore

0.80

自引率

0.00%

发文量

9815

期刊介绍： Beijing Da Xue Xue Bao Yi Xue Ban / Journal of Peking University (Health Sciences), established in 1959, is a national academic journal sponsored by Peking University, and its former name is Journal of Beijing Medical University. The coverage of the Journal includes basic medical sciences, clinical medicine, oral medicine, surgery, public health and epidemiology, pharmacology and pharmacy. Over the last few years, the Journal has published articles and reports covering major topics in the different special issues (e.g. research on disease genome, theory of drug withdrawal, mechanism and prevention of cardiovascular and cerebrovascular diseases, stomatology, orthopaedic, public health, urology and reproductive medicine). All the topics involve latest advances in medical sciences, hot topics in specific specialties, and prevention and treatment of major diseases. The Journal has been indexed and abstracted by PubMed Central (PMC), MEDLINE/PubMed, EBSCO, Embase, Scopus, Chemical Abstracts (CA), Western Pacific Region Index Medicus (WPR), JSTChina, and almost all the Chinese sciences and technical index systems, including Chinese Science and Technology Paper Citation Database (CSTPCD), Chinese Science Citation Database (CSCD), China BioMedical Bibliographic Database (CBM), CMCI, Chinese Biological Abstracts, China National Academic Magazine Data-Base (CNKI), Wanfang Data (ChinaInfo), etc.