临床与生物力学对齐的计算机断层扫描坐标系中膝关节方向的比较。

Comparison of knee joint orientation in clinically versus biomechanically aligned computed tomography coordinate system.

作者信息

Scherer Thomas P, Hoechel Sebastian, Müller-Gerbl Magdalena, Nowakowski Andrej M

机构信息

Department of Biomedicine, Musculoskeletal Research, University of Basel, Pestalozzistrasse 20, CH-4056 Basel, Switzerland.

Orthopaedic Department, Spital Uster, Brunnenstrasse 42, CH-8610 Uster, Switzerland.

出版信息

J Orthop Translat. 2018 Aug 9;16:78-84. doi: 10.1016/j.jot.2018.07.005. eCollection 2019 Jan.

DOI:10.1016/j.jot.2018.07.005

PMID:30723684

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6350020/

Abstract

BACKGROUND

Preoperative planning of total knee arthroplasty is usually performed using knee-centred computed tomography (CT) data sets. The disadvantage of these data sets is having no account of the biomechanical axis of the lower extremity, known as Mikulicz line. It aligns the femoral head to the middle of the talocrural joint. For optimal prosthesis arrangement, the knee CT data set must therefore be brought in congruency with this line of loading to achieve the best results and eliminate rotational malalignments.This study aims to establish a relation between the knee-centred clinical coordinate system (CCS) and a biomechanical coordinate system (BCS) based on the Mikulicz line.

METHODS

CT data sets of 45 lower extremities were evaluated. Using VG Studio Max, a visualisation and measurement software program; each CT data set was aligned according to the CCS and BCS. After superimposing both the aligned data sets, the deviations of both coordinate systems in all three planes were measured with the centre of the knee defined as the origin.

RESULTS

For the coronal plane, the CCS was demonstrated to be 2.54° in adduction compared to the BCS [standard deviation (SD) = 1.8°]. In sagittal view, the CCS was demonstrated to be 0.3° retroversed (SD = 3.27°). Finally, the deviation in the axial plane showed an outward rotation of 3.39° (SD = 1.99°). The alignment as well as the measurements demonstrated high intraobserver and interobserver reproducibility.

CONCLUSION

Both coordinate systems can be established in knee-centred CT data sets in a reproducible manner. Clearly, the CCS differs significantly from the BCS describing the biomechanical axis, but mathematical-based adaptations and corrections can be performed.

THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE

The findings of this study allow a mathematical conversion of a knee CT to the biomechanical axis of the leg.

摘要

背景

全膝关节置换术的术前规划通常使用以膝关节为中心的计算机断层扫描（CT）数据集。这些数据集的缺点是没有考虑下肢的生物力学轴线，即米库利奇线。该轴线将股骨头与距小腿关节的中点对齐。因此，为了实现最佳的假体排列，膝关节CT数据集必须与这条负荷线一致，以获得最佳效果并消除旋转排列不齐。本研究旨在基于米库利奇线建立以膝关节为中心的临床坐标系（CCS）与生物力学坐标系（BCS）之间的关系。

方法

对45个下肢的CT数据集进行评估。使用可视化和测量软件程序VG Studio Max；将每个CT数据集按照CCS和BCS进行对齐。在叠加两个对齐后的数据集后，以膝关节中心为原点，测量两个坐标系在所有三个平面上的偏差。

结果

在冠状面，与BCS相比，CCS显示内收2.54°[标准差（SD）=1.8°]。在矢状面，CCS显示后倾0.3°（SD = 3.27°）。最后，在轴平面上的偏差显示向外旋转3.39°（SD = 1.99°）。对齐以及测量结果显示观察者内和观察者间具有高度的可重复性。

结论

两个坐标系都可以以可重复的方式在以膝关节为中心的CT数据集中建立。显然，CCS与描述生物力学轴线的BCS有显著差异，但可以进行基于数学的调整和校正。

本文的转化潜力

本研究的结果允许将膝关节CT进行数学转换以得到腿部的生物力学轴线。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f916/6350020/5feaf23868a9/gr1.jpg

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临床与生物力学对齐的计算机断层扫描坐标系中膝关节方向的比较。

Comparison of knee joint orientation in clinically versus biomechanically aligned computed tomography coordinate system.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE

背景

方法

结果

结论

本文的转化潜力

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