Department of Oral Diagnosis, Piracicaba Dental School, State University of Campinas, Campinas, São Paulo, Brazil.
J Endod. 2012 Oct;38(10):1404-7. doi: 10.1016/j.joen.2012.06.006. Epub 2012 Jul 10.
This study assessed the effect of the combination of a dedicated endodontic filter, spatial resolution, and contrast resolution on the determination of endodontic file lengths.
Forty extracted single-rooted teeth were x-rayed with K-files (ISO size 10 and 15) in the root canals. Images were acquired using the VistaScan system (Dürr Dental, Beitigheim-Bissingen, Germany) under different combining parameters of spatial resolution (10 and 25 line pairs per millimeter [lp/mm]) and contrast resolution (8- and 16-bit depths). Subsequently, a dedicated endodontic filter was applied on the 16-bit images, creating 2 additional parameters. Six observers measured the length of the endodontic files in the root canals using the software that accompanies the system. The mean values of the actual file lengths and the measurements of the radiographic images were submitted to 1-way analysis of variance and the Tukey test at a level of significance of 5%. The intraobserver reproducibility was assessed by the intraclass correlation coefficient.
All combined image parameters showed excellent intraobserver agreement with intraclass correlation coefficient means higher than 0.98. The imaging parameter of 25 lp/mm and 16 bit associated with the use of the endodontic filter did not differ significantly from the actual file lengths when both file sizes were analyzed together or separately (P > .05). When the size 15 file was evaluated separately, only 8-bit images differed significantly from the actual file lengths (P ≤ .05).
The combination of an endodontic filter with high spatial resolution and high contrast resolution is recommended for the determination of file lengths when using storage phosphor plates.
本研究评估了专用根管滤波器、空间分辨率和对比分辨率的组合对确定根管锉长度的影响。
40 颗离体单根牙在根管内用 K 锉(ISO 尺寸 10 和 15)进行 X 射线拍摄。使用 VistaScan 系统(Dürr Dental,Beitigheim-Bissingen,德国)在不同的空间分辨率(10 和 25 线对/毫米[lp/mm])和对比分辨率(8 位和 16 位深度)组合参数下获取图像。随后,在 16 位图像上应用专用根管滤波器,创建另外 2 个参数。6 名观察者使用系统附带的软件测量根管内根管锉的长度。实际锉长度的平均值和射线照相图像的测量值被提交给单因素方差分析和 Tukey 检验,显著性水平为 5%。通过组内相关系数评估观察者内的可重复性。
所有组合的图像参数均具有极好的观察者内一致性,组内相关系数平均值高于 0.98。当两种锉尺寸一起或分别分析时,25 lp/mm 的成像参数和 16 位与使用根管滤波器相关联,与实际锉长度无显著差异(P>.05)。当单独评估 15 号锉时,只有 8 位图像与实际锉长度有显著差异(P≤.05)。
当使用存储磷板时,建议将专用根管滤波器与高空间分辨率和高对比分辨率相结合,以确定锉长度。
