使用三维计算机断层扫描（3D-CT）模型对股骨近端进行双侧对称比较。

Bilateral symmetrical comparison of the proximal femur using 3D-CT models.

作者信息

Dolatowski Filip C, Temmesfeld Max J, Pierre-Jerome Claude, Borthne Arne, Hoelsbrekken Sigurd Erik

机构信息

Institute of Clinical Medicine, University of Oslo, Oslo, Norway.

Department of Orthopaedic Surgery, Akershus University Hospital, Lørenskog, Norway.

出版信息

Surg Radiol Anat. 2018 May;40(5):507-513. doi: 10.1007/s00276-018-1968-6. Epub 2018 Jan 10.

DOI:10.1007/s00276-018-1968-6

PMID:29322292

Abstract

PURPOSE

Superimposed three-dimensional (3D)-models obtained from CT-images have been used to evaluate displacement of femoral neck fractures, but this method assumes symmetrical anatomy of normal femurs. The present study aimed to compare the spatial orientation of the left and right proximal femur, thus establishing if 3D models can be used as a reference standard for the evaluation of fracture displacement.

METHODS

We generated 3D-CT-models of 20 patients with no skeletal pathology of the proximal femurs. Three observers independently determined the positions of the fovea and the femoral head, and a vector intersecting the centre points of the fovea and the femoral head defined the rotation. Differences in positions and rotations were determined by superimposing the 3D-CT-models of both femurs.

RESULTS

The mean distance (95% CI) between positions of the left and right fovea was 3.1 mm (2.7-3.4) and between the left and right femoral head 2.8 mm (2.6-3.0). The minimal detectable change was 2.8 for the fovea and 2.3 for the femoral head, and the repeatability coefficients between 2.1-2.7 and 1.0-2.9, respectively. Mean difference in rotation of the femoral head was 6° (5.3-6.6) with a minimal detectable change of 8.8 and repeatability coefficients ranging from 5.8 to 10.0.

CONCLUSIONS

Distances between the left and right femoral heads were larger than what could be explained by measurement error alone, suggesting that there may be minor side-to-side differences. However, these differences are small, and 3D-CT-models can be used as a reference standard to evaluate displacement of femoral neck fractures.

摘要

目的

利用从CT图像获得的叠加三维（3D）模型来评估股骨颈骨折的移位情况，但该方法假定正常股骨的解剖结构是对称的。本研究旨在比较左右近端股骨的空间方位，从而确定3D模型是否可作为评估骨折移位的参考标准。

方法

我们生成了20例近端股骨无骨骼病变患者的3D-CT模型。三名观察者独立确定股骨小凹和股骨头的位置，一条与股骨小凹和股骨头中心点相交的向量定义旋转情况。通过叠加两侧股骨的3D-CT模型来确定位置和旋转的差异。

结果

左右股骨小凹位置之间的平均距离（95%CI）为3.1毫米（2.7 - 3.4），左右股骨头之间为2.8毫米（2.6 - 3.0）。股骨小凹的最小可检测变化为2.8，股骨头为2.3，重复性系数分别在2.1 - 2.7和1.0 - 2.9之间。股骨头旋转的平均差异为6°（5.3 - 6.6），最小可检测变化为8.8，重复性系数在5.8至10.0之间。

结论

左右股骨头之间的距离大于仅由测量误差所能解释的范围，提示可能存在轻微的左右差异。然而，这些差异较小，3D-CT模型可作为评估股骨颈骨折移位的参考标准。

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使用三维计算机断层扫描（3D-CT）模型对股骨近端进行双侧对称比较。

Bilateral symmetrical comparison of the proximal femur using 3D-CT models.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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