探讨温度敏感型 NiTi 器械的形态变化与实时根管内温度动态变化之间的关系。
Exploring morphometric transformations in temperature-sensitive NiTi instruments alongside real-time intracanal temperature dynamics.
机构信息
Hamdan Bin Mohammed College of Dental Medicine (HBMCDM), Mohammed Bin Rashid University of Medicine and Health Sciences (MBRU), Dubai, United Arab Emirates.
Department of Conservative Dentistry, Faculty of Dentistry, Jordan University of Science and Technology, Irbid, Jordan.
出版信息
Int Endod J. 2024 Sep;57(9):1360-1370. doi: 10.1111/iej.14100. Epub 2024 May 28.
AIM
This study was twofold: (i) it aimed to investigate the morphometric changes of three temperature-sensitive nickel-titanium (NiTi) instruments at different temperatures, and (ii) to conduct an in vivo real-time analysis of intracanal temperature changes.
METHODS
Changes in the shape and length of XP-Endo Shaper, XP-Endo Finisher, and XP-Endo Finisher-R were evaluated in real time whilst heated in a temperature-controlled water bath from 22 to 45°C. Instruments were fixed to a laminated water-resistant 1 mm graph paper attached to a stone block. Instruments were imaged whilst subjected to increasing temperature using a digital camera attached to an operating microscope. From recorded videos, still frames were extracted at 10-s intervals and changes in the length and shape of each instrument were measured and changes were plotted against time. Moreover, the intracanal temperature of distal roots of lower molars was measured in vivo for patients attending the clinic for non-surgical root canal treatments. The temperature was measured using a K-type thermocouple probe inserted into the mid-root level after irrigating the canal with a solution set at room temperature (22°C) or heated to 45°C. The intraoral and intracanal temperatures were recorded using a video camera for 180 s at 5-s intervals to plot the change in the intraoral and intracanal temperature, after both irrigation solution temperatures, with time.
RESULTS
The shape transformation of XP-Endo Shaper began at 31.5 ± 2.0°C and reached its optimal transformation at 35.1 ± 1.0°C. For the Finisher and Finisher-R, shape transformations began at 29.2 ± 1.9 and 26.9 ± 2.2°C reaching the optimal transformation at 33.9 ± 1.4 and 32.7 ± 1.7°C, respectively. The average decreases in lengths of XP-Endo Shaper, Finisher, and Finisher-R after full transformation were 0.43 ± 0.23, 1.07 ± 0.22, and 1.15 ± 0.22 mm, respectively. The intracanal temperature reached 32.9 ± 0.8 and 33.2 ± 1.0°C after 3 min of application of irrigation solutions set at 22 or 45°C, respectively.
CONCLUSION
The tested instruments exhibited diverse changes in their shapes and lengths at varying temperatures. Despite the temperature of the irrigation solution, the intracanal temperature consistently remained lower than the intracanal temperature once equilibrium was reached. This highlights the importance of considering the temperature of irrigation solution during in vitro testing of endodontic instruments.
目的
本研究分为两部分:(i)研究三种温度敏感镍钛(NiTi)器械在不同温度下的形态变化;(ii)进行根管内温度变化的实时体内分析。
方法
在温度控制水浴中从 22°C 加热至 45°C 时,实时评估 XP-Endo Shaper、XP-Endo Finisher 和 XP-Endo Finisher-R 的形状和长度变化。将器械固定在贴在石块上的层压耐水 1 毫米绘图纸上。使用连接到手术显微镜的数码相机在温度升高时对器械进行成像。从记录的视频中,以 10 秒的间隔提取静止帧,并测量每个器械的长度和形状变化,并将变化绘制成与时间的关系图。此外,测量接受非手术根管治疗的患者下颌磨牙远中根的根管内温度。使用插入根管中部的 K 型热电偶探头测量温度,该探头在室温(22°C)下或加热至 45°C 下用溶液冲洗。使用视频摄像机以 5 秒的间隔记录 180 秒的口腔内和根管内温度,以绘制两种冲洗液温度随时间变化的口腔内和根管内温度变化图。
结果
XP-Endo Shaper 的形状变化始于 31.5±2.0°C,在 35.1±1.0°C 达到最佳变化。对于 Finisher 和 Finisher-R,形状变化分别始于 29.2±1.9°C 和 26.9±2.2°C,在 33.9±1.4°C 和 32.7±1.7°C 达到最佳变化。完全变形后 XP-Endo Shaper、Finisher 和 Finisher-R 的平均长度减少分别为 0.43±0.23、1.07±0.22 和 1.15±0.22 毫米。分别应用 22°C 或 45°C 冲洗液 3 分钟后,根管内温度达到 32.9±0.8°C 和 33.2±1.0°C。
结论
测试器械在不同温度下表现出形状和长度的不同变化。尽管冲洗液温度不同,但一旦达到平衡,根管内温度始终保持在较低水平。这突出表明在根管器械的体外测试中考虑冲洗液温度的重要性。
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