不同电子根尖定位仪结合不同体素大小锥形束 CT 图像检测穿孔区根管长度的对比离体研究

Determination of Root Canal Length Up to Perforation Area Using Different Electronic Apex Locators and CBCT Images Obtained at Different Voxel Sizes: A Comparative Ex Vivo Study.

出版信息

Chin J Dent Res. 2021 Apr 23;24(1):49-54. doi: 10.3290/j.cjdr.b1105877.

DOI:10.3290/j.cjdr.b1105877

Abstract

OBJECTIVE

To compare the accuracy of electronic apex locators in the presence of blood and CBCT images obtained with two different voxel sizes (0.125 mm and 0.25 mm) in determining root canal length up to the perforation area.

METHODS

Forty extracted, single-rooted human teeth were selected and an artificial root perforation (0.4 ± 0.1 or 1.0 ± 0.2 mm diameter) was created in the middle third of the root. The actual root canal length up to the perforation area was determined under a stereomicroscope. CBCT images were obtained with a voxel size of 0.125 mm and 0.25 mm. The root canal length up to the perforation area was measured on CBCT images and recorded as the radiographic length. The teeth were embedded in alginate and root canal length up to the perforation area was measured using two different EALs (DentaPort ZX [Morita, Tokyo, Japan] and Gold Reciproc motor [VDW, Munich, Germany]) and recorded as the electronic length.

RESULTS

In teeth with an artificial root perforation 0.4 mm in diameter, the measurements obtained with DentaPort ZX were more accurate than with the Gold Reciproc motor (P ˂ 0.05), and on CBCT images, more accurate measurements were obtained with a voxel size of 0.125 mm compared to 0.25 mm (P ˂ 0.05). In teeth with an artificial root perforation 1.0 mm in diameter, the radiographic length was closer to actual length than the electronic length (P ˂ 0.05).

CONCLUSION

In artificial root perforations with a diameter of 0.4 mm, CBCT gives more reliable results than EALs. Both EAL and CBCT measurements were closer to actual length in artificial perforations that were 1.0 mm in diameter.

摘要

目的

比较电子根尖定位仪在有血和两种不同体素大小（0.125mm 和 0.25mm）的 CBCT 图像存在的情况下，确定根管长度至穿孔区域的准确性。

方法

选择 40 颗拔出的单根人牙，并在根尖三分之一处创建人工根穿孔（直径 0.4±0.1 或 1.0±0.2mm）。在立体显微镜下确定至穿孔区域的实际根管长度。使用体素大小为 0.125mm 和 0.25mm 获得 CBCT 图像。在 CBCT 图像上测量至穿孔区域的根管长度，并记录为射线照相长度。将牙齿嵌入藻酸盐中，并使用两种不同的 EAL（DentaPort ZX[Morita，东京，日本]和 Gold Reciproc 电机[VDW，慕尼黑，德国]）测量至穿孔区域的根管长度，并记录为电子长度。

结果

在直径为 0.4mm 的人工根穿孔牙齿中，DentaPort ZX 的测量结果比 Gold Reciproc 电机更准确（P ˂0.05），并且在 CBCT 图像上，体素大小为 0.125mm 比 0.25mm 获得更准确的测量结果（P ˂0.05）。在直径为 1.0mm 的人工根穿孔牙齿中，射线照相长度比电子长度更接近实际长度（P ˂0.05）。

结论

在直径为 0.4mm 的人工穿孔中，CBCT 比 EAL 提供更可靠的结果。在直径为 1.0mm 的人工穿孔中，EAL 和 CBCT 测量值都更接近实际长度。

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Determination of Root Canal Length Up to Perforation Area Using Different Electronic Apex Locators and CBCT Images Obtained at Different Voxel Sizes: A Comparative Ex Vivo Study.不同电子根尖定位仪结合不同体素大小锥形束 CT 图像检测穿孔区根管长度的对比离体研究

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不同电子根尖定位仪结合不同体素大小锥形束 CT 图像检测穿孔区根管长度的对比离体研究

Determination of Root Canal Length Up to Perforation Area Using Different Electronic Apex Locators and CBCT Images Obtained at Different Voxel Sizes: A Comparative Ex Vivo Study.

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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