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Developing Novel Weighted Correlation Kernels for Convolutional Neural Networks to Extract Hierarchical Functional Connectivities from fMRI for Disease Diagnosis Read chapter Read first chapter

2018 | OriginalPaper | Chapter

Latent3DU-net: Multi-level Latent Shape Space Constrained 3D U-net for Automatic Segmentation of the Proximal Femur from Radial MRI of the Hip

Authors : Guodong Zeng, Qian Wang, Till Lerch, Florian Schmaranzer, Moritz Tannast, Klaus Siebenrock, Guoyan Zheng

Published in: Machine Learning in Medical Imaging

Publisher: Springer International Publishing

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Abstract

Radial 2D MRI scans of the hip are routinely used for the diagnosis of the cam-type of femoroacetabular impingement (FAI) and of avascular necrosis (AVN) of the femoral head, which are considered causes of hip joint osteoarthritis in young and active patients. However, for computer assisted planning of surgical treatment, it is highly desired to have 3D models of the proximal femur. In this paper, we propose a novel volumetric convolutional neural network (CNN) based framework to fully automatically extract 3D models of the proximal femur from sparsely hip radial slices. Our framework starts with a spatial transform to interpolate sparse 2D radial MR images to a densely sampled 3D volume data. Automated segmentation of the interpolated 3D volume data is very challenging due to the poor image quality and the interpolation artifact. To tackle these challenges, we introduce a multi-level latent shape space constrained 3D U-net, referred as Latent3DU-net, to incorporate prior shape knowledge into voxelwise semantic segmentation of the interpolated 3D volume. Comprehensive results obtained from 25 patient data demonstrated the effectiveness of the proposed framework.

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Literature
1.
Leunig, M., Beaule, P., Ganz, R.: The concept of femoroacetabular impingement: current status and future perspectives. Clin. Orthop. Relat. Res. 467, 616–622 (2009)CrossRef
2.
Chughtai, M., Piuzzi, N.: An evidence-based guide to the treatment of osteonecrosis of the femoral head. Bone Joint J. 99(10), 1267–1279 (2017)CrossRef
3.
Tannast, M., Kubiak-Langer, M.: Noninvasive three-dimensional assessment of femoroacetabular impingement. J. Orthop. Res. 25(1), 122–131 (2007)CrossRef
4.
Xia, Y., Fripp, J.: Automated bone segmentation from large field of view 3d MR images of the hip joint. Phys. Med. Biol. 58(20), 7375–7390 (2013)CrossRef
5.
Arezoomand, S., Lee, W.: A 3d active model framework for segmentation of proximal femur in MR images. Int. J. CARS 10(1), 55–66 (2015)CrossRef
6.
Chandra, S.S., Xia, Y., et al.: Focused shape models for hip joint segmentation in 3d magnetic resonance images. Med. Image Anal. 18(3), 567–578 (2014)CrossRef
7.
Çiçek, Ö., Abdulkadir, A., Lienkamp, S.S., Brox, T., Ronneberger, O.: 3D U-net: learning dense volumetric segmentation from sparse annotation. In: Ourselin, S., Joskowicz, L., Sabuncu, M.R., Unal, G., Wells, W. (eds.) MICCAI 2016. LNCS, vol. 9901, pp. 424–432. Springer, Cham (2016). https://​doi.​org/​10.​1007/​978-3-319-46723-8_​49CrossRef
8.
Dou, Q., Yu, L.: 3d deeply supervised network for automated segmentation of volumetric medical images. Med. Image Anal. 41, 40–54 (2017)CrossRef
9.
Zeng, G., Yang, X., Li, J., Yu, L., Heng, P.-A., Zheng, G.: 3D U-net with multi-level deep supervision: fully automatic segmentation of proximal femur in 3D MR images. In: Wang, Q., Shi, Y., Suk, H.-I., Suzuki, K. (eds.) MLMI 2017. LNCS, vol. 10541, pp. 274–282. Springer, Cham (2017). https://​doi.​org/​10.​1007/​978-3-319-67389-9_​32CrossRef
10.
Van Assen, H., Danilouchkine, M.: Spasm: a 3d-ASM for segmentation of sparse and arbitrarily oriented cardiac MRI data. Med. Image Anal. 10(2), 286–303 (2006)CrossRef
11.
Litjens, G., Kooi, T.: A survey on deep learning in medical image analysis. Med. Image Anal. 42, 60–88 (2017)CrossRef
12.
13.
Oktay, O., Kamnisas, K.: Anotomically constrained neural networks (ACNN): application to cardiac image enhancement and segmentation. IEEE Trans. Med. Imaging 37(2), 384–395 (2018)CrossRef
14.
15.
Ioffe, S., Szegedy, C.: Batch normalization: accelerating deep network training by reducing internal covariate shift. Proc. ICML 448–456 (2015)
16.
Krizhevsky, A., Ilya, S., Hinton, G.: Imagenet classification with deep convolutional neural networks. Proc. NIPS 1097–1105 (2012)
17.
Carr, J., Beatson, R., et al.: Reconstruction and representation of 3d objects with radial basis functions. Computer Graphics (2001) 67–76
Metadata
Title
Latent3DU-net: Multi-level Latent Shape Space Constrained 3D U-net for Automatic Segmentation of the Proximal Femur from Radial MRI of the Hip
Authors
Guodong Zeng
Qian Wang
Till Lerch
Florian Schmaranzer
Moritz Tannast
Klaus Siebenrock
Guoyan Zheng
Copyright Year
2018
Book
Machine Learning in Medical Imaging

Print ISBN: 978-3-030-00918-2

Electronic ISBN: 978-3-030-00919-9

Copyright Year: 2018

DOI
https://doi.org/10.1007/978-3-030-00919-9_22

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