3D Convolutional Neural Networks for Tumor Segmentation using Long-range 2D Context
July 23, 2018 Β· Declared Dead Β· π Comput. Medical Imaging Graph.
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Authors
Pawel Mlynarski, HervΓ© Delingette, Antonio Criminisi, Nicholas Ayache
arXiv ID
1807.08599
Category
cs.CV: Computer Vision
Cross-listed
cs.LG
Citations
114
Venue
Comput. Medical Imaging Graph.
Last Checked
4 months ago
Abstract
We present an efficient deep learning approach for the challenging task of tumor segmentation in multisequence MR images. In recent years, Convolutional Neural Networks (CNN) have achieved state-of-the-art performances in a large variety of recognition tasks in medical imaging. Because of the considerable computational cost of CNNs, large volumes such as MRI are typically processed by subvolumes, for instance slices (axial, coronal, sagittal) or small 3D patches. In this paper we introduce a CNN-based model which efficiently combines the advantages of the short-range 3D context and the long-range 2D context. To overcome the limitations of specific choices of neural network architectures, we also propose to merge outputs of several cascaded 2D-3D models by a voxelwise voting strategy. Furthermore, we propose a network architecture in which the different MR sequences are processed by separate subnetworks in order to be more robust to the problem of missing MR sequences. Finally, a simple and efficient algorithm for training large CNN models is introduced. We evaluate our method on the public benchmark of the BRATS 2017 challenge on the task of multiclass segmentation of malignant brain tumors. Our method achieves good performances and produces accurate segmentations with median Dice scores of 0.918 (whole tumor), 0.883 (tumor core) and 0.854 (enhancing core). Our approach can be naturally applied to various tasks involving segmentation of lesions or organs.
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