在严重弯曲的 L 型根管中使用三种镍钛旋转锉的比较分析：制备时间、畸变和折断率。

IF 1.5 Q3 DENTISTRY, ORAL SURGERY & MEDICINE Clinical, Cosmetic and Investigational Dentistry Pub Date : 2024-02-16 eCollection Date: 2024-01-01 DOI:10.2147/CCIDE.S452742

Raid Abdullah Almnea, Sadun Mohammad Al Ageel Albeaji, Ahmed Ali Alelyani, Dalia AlHarith, Abdulmajeed Saeed Alshahrani, Ahmed Abdullah Al Malwi, Mohammed A Alobaid, Mohammed M Al Moaleem

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摘要

背景：这项对 30 个严重弯曲的 L 型根管进行的模拟研究旨在比较 ProTaper、ProTaper Next (PTN) 和 WaveOne (WO) 三种镍钛 (Ni-Ti) 锉刀的制备时间、畸变、宽度测量和锉刀折断情况：将 30 个模拟 L 型弯曲根管的树脂块随机分为三组。使用 ProTaper、PTN 和 WO 旋转锉系统制备根管，根尖尺寸为 25。每个样本的术前和术后视图均由专业相机在标准距离和位置拍摄。在术前的牙槽中注入蓝色印度墨水，在术后的牙槽中注入红色印度墨水，以获得清晰的叠加图像。从牙槽骨的一半到孔口（弯曲起始点和根尖终点之间的区域）的五个点进行评估。记录并分析预备时间、像差、宽度测量值和折断的锉片：ProTaper 的平均预备时间最长（4.89±0.68 分钟）。PTN 和 WO 制备牙槽骨的速度最快（约 3 分钟）。WO和ProTaper以及PTN和ProTaper之间的差异具有统计学意义（P=0.000），而WO和PTN之间的差异不显著（P>0.05）。ProTaper 系统有 9 个畸变，包括 3 个缺口、1 个台阶和 1 个外扩，而 WO 系统记录了 1 个台阶和断裂的锉刀，但 PTN 系统则验证了外扩和台阶。只有一个 WO 锉刀断裂，其他仪器没有观察到变形。不同级别的宽度测量结果之间没有显著差异：结论：与ProTaper和WO锉系统相比，ProTaper next切割速度更快。PTN保持了最佳的根尖终止位置，并产生了最小的牙道偏差，其次是WO和ProTaper。

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Comparative Analysis of Three Nickel-Titanium Rotary Files in Severely Curved L-Shaped Root Canals: Preparation Time, Aberrations, and Fracture Rates.

Background: This simulated study of 30 severely curved L-shaped root canals aimed to compare preparation time, aberrations, width measurements, and fractured files of three nickel-titanium (Ni-Ti) files, namely, ProTaper, ProTaper Next (PTN), and WaveOne (WO).

Methods: Thirty simulated L-curved root canals of resin blocks were randomly divided into three groups. The canals were prepared to a tip size of 25 using ProTaper, PTN, and WO rotary file systems. Pre- and post-operative views for each sample were captured by a professional camera at a standardized distance and position. Blue India ink was injected into the pre-operative canals, and red India ink was injected into the post-operative canals to give a clear superimposition image. Five points were assessed through the halfway of the canal to the orifice (area between the beginning of curvature and apical end point). Preparation time, aberrations, width measurements, and fractured files were recorded and analyzed.

Results: Mean preparation time was longest in ProTaper (4.89±0.68 minutes). PTN and WO were the fastest in preparing the canals (about 3 minutes). A statistically significant difference was found between WO and ProTaper & PTN and ProTaper (p=0.000), while the difference was non-significant (p > 0.05) between WO and PTN. Nine aberrations consisting of three zips, one ledge and one outer widening were related to ProTaper, while WO recorded a ledge and fractured file, but for PTN system, it verified an outer widening and ledge. Only one WO file fractured, with no deformation observed in the other instruments. No significance was recorded among the width measurements in the different levels.

Conclusion: ProTaper next achieved faster cutting than the ProTaper and WO file systems. PTN maintained the best apical termination position and produced the least canal aberration, followed by WO and ProTaper.

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