Complex & Intelligent Systems (Jun 2021)

ST-V-Net: incorporating shape prior into convolutional neural networks for proximal femur segmentation

  • Chen Zhao,
  • Joyce H. Keyak,
  • Jinshan Tang,
  • Tadashi S. Kaneko,
  • Sundeep Khosla,
  • Shreyasee Amin,
  • Elizabeth J. Atkinson,
  • Lan-Juan Zhao,
  • Michael J. Serou,
  • Chaoyang Zhang,
  • Hui Shen,
  • Hong-Wen Deng,
  • Weihua Zhou

DOI
https://doi.org/10.1007/s40747-021-00427-5
Journal volume & issue
Vol. 9, no. 3
pp. 2747 – 2758

Abstract

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Abstract We aim to develop a deep-learning-based method for automatic proximal femur segmentation in quantitative computed tomography (QCT) images. We proposed a spatial transformation V-Net (ST-V-Net), which contains a V-Net and a spatial transform network (STN) to extract the proximal femur from QCT images. The STN incorporates a shape prior into the segmentation network as a constraint and guidance for model training, which improves model performance and accelerates model convergence. Meanwhile, a multi-stage training strategy is adopted to fine-tune the weights of the ST-V-Net. We performed experiments using a QCT dataset which included 397 QCT subjects. During the experiments for the entire cohort and then for male and female subjects separately, 90% of the subjects were used in ten-fold stratified cross-validation for training and the rest of the subjects were used to evaluate the performance of models. In the entire cohort, the proposed model achieved a Dice similarity coefficient (DSC) of 0.9888, a sensitivity of 0.9966 and a specificity of 0.9988. Compared with V-Net, the Hausdorff distance was reduced from 9.144 to 5.917 mm, and the average surface distance was reduced from 0.012 to 0.009 mm using the proposed ST-V-Net. Quantitative evaluation demonstrated excellent performance of the proposed ST-V-Net for automatic proximal femur segmentation in QCT images. In addition, the proposed ST-V-Net sheds light on incorporating shape prior to segmentation to further improve the model performance.

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