前交叉韧带重建中骨隧道大小的测量：二维与三维计算机断层扫描模型

Measurements of bone tunnel size in anterior cruciate ligament reconstruction: 2D versus 3D computed tomography model.

作者信息

Crespo Bernardo, Aga Cathrine, Wilson Katharine J, Pomeroy Shannon M, LaPrade Robert F, Engebretsen Lars, Wijdicks Coen A

机构信息

Steadman Philippon Research Institute, 181 W. Meadow Dr. Suite 1000, Vail, 81657, CO, USA.

Department of Orthopaedic Surgery, Oslo University Hospital and Faculty of Medicine, University of Oslo, Oslo, Norway.

出版信息

J Exp Orthop. 2014 Dec;1(1):2. doi: 10.1186/s40634-014-0002-0. Epub 2014 Jun 26.

DOI:10.1186/s40634-014-0002-0

PMID:26914747

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4648836/

Abstract

BACKGROUND

Revision anterior cruciate ligament (ACL) reconstruction requires a precise evaluation of previous tunnel locations and diameters. Enlargement of the tunnels, despite not usually affecting primary reconstruction outcomes, plays an important role in revision ACL management. Three dimensional (3D) computed tomography (CT) models are reported to be the most accurate method for identifying the tunnel position and possible conflicts with a revision tunnel placement. However, the ability of 3D CT to measure the tunnel size is still not proven. The goal of this study was to evaluate the ability of measuring the size of the bone tunnels in ACL reconstructed knees with 3D CT compared to the traditional two dimensional (2D) CT method.

METHODS

Twenty-four patients had CT scans performed immediately following ACL reconstruction surgery. Their femoral tunnels size were measured by a standard 2D CT measurement and then compared with three novel 3D CT measuring methods: the best transverse section method, the best fit cylinder method and the wall thickness method. The drill size used during surgery was used as a control measure for the tunnel width. Intra-class correlation coefficients were obtained.

RESULTS

The intra-class correlation coefficient and respective 95% confidence interval range (ICC [95%CI]) for the three methods compared with the drill sizes were 0.899 [0.811-0.947] for the best transverse section method, 0.745 [0.553-0.862] for the best fit cylinder method, -0.004 [-0.081 to -0.12] for the wall thickness method and 0.922 [0.713-0.97] for the 2D CT method. The mean differences compared to the drill size were 0.02 mm for the best fit transverse section method, 0.01 mm for the best fit cylinder diameter method, 3.34 mm for the wall thickness method and 0.29 mm for the 2D CT method. The intra-rater agreement (ICC [95%CI]) was excellent for the best transverse section method 0.999 [0.998-0.999] and the 2D CT method 0.969 [0.941-0.984].

CONCLUSIONS

The 3D best transverse section method presented a high correlation to the drill sizes and high intra-rater agreement, and was the best method for ACL tunnel evaluation in a 3D CT based model.

摘要

背景

前交叉韧带（ACL）翻修重建需要精确评估先前隧道的位置和直径。隧道扩大尽管通常不影响初次重建的结果，但在ACL翻修处理中起着重要作用。据报道，三维（3D）计算机断层扫描（CT）模型是确定隧道位置以及与翻修隧道放置可能存在冲突的最准确方法。然而，3D CT测量隧道大小的能力仍未得到证实。本研究的目的是评估与传统二维（2D）CT方法相比，3D CT测量ACL重建膝关节骨隧道大小的能力。

方法

24例患者在ACL重建手术后立即进行CT扫描。通过标准的2D CT测量法测量其股骨隧道大小，然后与三种新的3D CT测量方法进行比较：最佳横断面法、最佳拟合圆柱体法和壁厚法。手术中使用的钻头尺寸用作隧道宽度的对照测量。获得组内相关系数。

结果

与钻头尺寸相比，三种方法的组内相关系数及其各自的95%置信区间范围（ICC [95%CI]）分别为：最佳横断面法为0.899 [0.811 - 0.947]，最佳拟合圆柱体法为0.745 [0.553 - 0.862]，壁厚法为 - 0.004 [-0.081至 -0.12]，2D CT法为0.922 [0.713 - 0.97]。与钻头尺寸相比的平均差异分别为：最佳拟合横断面法为0.02毫米，最佳拟合圆柱体直径法为0.01毫米，壁厚法为3.34毫米，2D CT法为0.29毫米。最佳横断面法的组内评分者一致性（ICC [95%CI]）为0.999 [0.998 - 0.999]，2D CT法为0.969 [0.941 - 0.984]，均非常好。

结论

3D最佳横断面法与钻头尺寸具有高度相关性且组内评分者一致性高，是基于3D CT模型评估ACL隧道的最佳方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c660/4648836/31403d63d9ca/40634_2014_2_Fig1_HTML.jpg

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前交叉韧带重建中骨隧道大小的测量：二维与三维计算机断层扫描模型

Measurements of bone tunnel size in anterior cruciate ligament reconstruction: 2D versus 3D computed tomography model.

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