用于精确骨骼分割的 3D 表面体素追踪校正器。

3D surface voxel tracing corrector for accurate bone segmentation.

机构信息

School of Computer Science and Technology, Harbin Institute of Technology, Harbin, China.

School of Electrical and Information Engineering, Beijing University of Civil Engineering and Architecture, Beijing, China.

出版信息

Int J Comput Assist Radiol Surg. 2018 Oct;13(10):1549-1563. doi: 10.1007/s11548-018-1804-9. Epub 2018 Jun 18.

DOI:10.1007/s11548-018-1804-9

PMID:29916062

Abstract

PURPOSE

For extremely close bones, their boundaries are weak and diffused due to strong interaction between adjacent surfaces. These factors prevent the accurate segmentation of bone structure. To alleviate these difficulties, we propose an automatic method for accurate bone segmentation. The method is based on a consideration of the 3D surface normal direction, which is used to detect the bone boundary in 3D CT images.

METHODS

Our segmentation method is divided into three main stages. Firstly, we consider a surface tracing corrector combined with Gaussian standard deviation [Formula: see text] to improve the estimation of normal direction. Secondly, we determine an optimal value of [Formula: see text] for each surface point during this normal direction correction. Thirdly, we construct the 1D signal and refining the rough boundary along the corrected normal direction. The value of [Formula: see text] is used in the first directional derivative of the Gaussian to refine the location of the edge point along accurate normal direction. Because the normal direction is corrected and the value of [Formula: see text] is optimized, our method is robust to noise images and narrow joint space caused by joint degeneration.

RESULTS

We applied our method to 15 wrists and 50 hip joints for evaluation. In the wrist segmentation, Dice overlap coefficient (DOC) of [Formula: see text]% was obtained by our method. In the hip segmentation, fivefold cross-validations were performed for two state-of-the-art methods. Forty hip joints were used for training in two state-of-the-art methods, 10 hip joints were used for testing and performing comparisons. The DOCs of [Formula: see text], [Formula: see text]%, and [Formula: see text]% were achieved by our method for the pelvis, the left femoral head and the right femoral head, respectively.

CONCLUSION

Our method was shown to improve segmentation accuracy for several specific challenging cases. The results demonstrate that our approach achieved a superior accuracy over two state-of-the-art methods.

摘要

目的

对于非常接近的骨骼，由于相邻表面之间的强烈相互作用，其边界较弱且扩散。这些因素阻止了骨骼结构的准确分割。为了缓解这些困难，我们提出了一种用于准确骨骼分割的自动方法。该方法基于对 3D 表面法向方向的考虑，用于在 3D CT 图像中检测骨骼边界。

方法

我们的分割方法分为三个主要阶段。首先，我们考虑结合高斯标准偏差 [Formula: see text] 的表面跟踪校正器，以改善法向方向的估计。其次，在进行此法向方向校正期间，我们确定每个表面点的 [Formula: see text] 的最佳值。第三，我们沿校正后的法向方向构建 1D 信号并细化粗糙边界。[Formula: see text] 用于在高斯的第一个方向导数中细化沿准确法向方向的边缘点的位置。由于法向方向得到了校正，并且 [Formula: see text] 的值得到了优化，因此我们的方法对由于关节退化导致的噪声图像和狭窄的关节空间具有鲁棒性。

结果

我们将我们的方法应用于 15 个手腕和 50 个髋关节进行评估。在手腕分割中，我们的方法获得了 [Formula: see text]%的重叠系数（DOC）。在髋关节分割中，对于两种最先进的方法进行了五重交叉验证。在两种最先进的方法中，使用了 40 个髋关节进行训练，使用了 10 个髋关节进行测试和比较。我们的方法分别为骨盆、左股骨头和右股骨头实现了 [Formula: see text]、[Formula: see text]%和 [Formula: see text]%的 DOC。

结论

我们的方法显示出可以提高几种特定挑战性病例的分割准确性。结果表明，我们的方法比两种最先进的方法具有更高的准确性。

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用于精确骨骼分割的 3D 表面体素追踪校正器。

3D surface voxel tracing corrector for accurate bone segmentation.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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