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猫桡骨远端关节面的计算机断层扫描和微型计算机断层扫描的几何精度评估。

Evaluation of the geometric accuracy of computed tomography and microcomputed tomography of the articular surface of the distal portion of the radius of cats.

作者信息

Webster Caroline E, Marcellin-Little Denis J, Koballa Erin M, Stallrich Jonathan W, Harrysson Ola L A

出版信息

Am J Vet Res. 2019 Oct;80(10):976-984. doi: 10.2460/ajvr.80.10.976.

DOI:10.2460/ajvr.80.10.976
PMID:31556712
Abstract

OBJECTIVE

To evaluate accuracy of articular surfaces determined by use of 2 perpendicular CT orientations, micro-CT, and laser scanning.

SAMPLE

23 cat cadavers.

PROCEDURES

Images of antebrachia were obtained by use of CT (voxel size, 0.6 mm) in longitudinal orientation (CT images) and transverse orientation (CT images) and by use of micro-CT (voxel size, 0.024 mm) in a longitudinal orientation. Images were reconstructed. Craniocaudal and mediolateral length, radius of curvature, and deviation of the articular surface of the distal portion of the radius of 3-D renderings for CT, CT, and micro-CT images were compared with results of 3-D renderings acquired with a laser scanner (resolution, 0.025 mm).

RESULTS

Measurement of CT and CT images overestimated craniocaudal and mediolateral length of the articular surface by 4% to 10%. Measurement of micro-CT images underestimated craniocaudal and mediolateral length by 1%. Measurement of CT and CT images underestimated mediolateral radius of curvature by 15% and overestimated craniocaudal radius of curvature by > 100%; use of micro-CT images underestimated them by 3% and 5%, respectively. Mean ± SD surface deviation was 0.26 ± 0.09 mm for CT images, 0.30 ± 0.28 mm for CT images, and 0.04 ± 0.02 mm for micro-CT images.

CONCLUSIONS AND CLINICAL RELEVANCE

Articular surface models derived from CT images had dimensional errors that approximately matched the voxel size. Thus, CT cannot be used to plan conforming arthroplasties in small joints and could lack precision when used to plan the correction of a limb deformity or repair of a fracture.

摘要

目的

评估使用两个垂直的CT方向、显微CT和激光扫描确定关节面的准确性。

样本

23只猫的尸体。

步骤

使用纵向(CT图像)和横向(CT图像)的CT(体素大小为0.6毫米)以及纵向的显微CT(体素大小为0.024毫米)获取前臂图像。对图像进行重建。将CT、CT和显微CT图像的三维渲染中桡骨远端关节面的头尾和内外侧长度、曲率半径及偏差与激光扫描仪(分辨率为0.025毫米)获取的三维渲染结果进行比较。

结果

CT和CT图像测量高估了关节面的头尾和内外侧长度4%至10%。显微CT图像测量低估了头尾和内外侧长度1%。CT和CT图像测量分别低估了内外侧曲率半径15%,高估了头尾曲率半径超过100%;使用显微CT图像分别低估了3%和5%。CT图像的平均±标准差表面偏差为0.26±0.09毫米,CT图像为0.30±0.28毫米,显微CT图像为0.04±0.02毫米。

结论及临床意义

源自CT图像的关节面模型存在尺寸误差,其大小与体素大小大致匹配。因此,CT不能用于小关节的定制关节置换术规划,在用于规划肢体畸形矫正或骨折修复时可能缺乏精度。

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