Abstract
Multi-organ segmentation in whole-body computed tomography (CT) is a constant pre-processing step which finds its application in organ-specific image retrieval, radiotherapy planning, and interventional image analysis. We address this problem from an organ-specific shape-prior learning perspective. We introduce the idea of complementary-task learning to enforce shape-prior leveraging the existing target labels. We propose two complementary-tasks namely (i) distance map regression and (ii) contour map detection to explicitly encode the geometric properties of each organ. We evaluate the proposed solution on the public VISCERAL dataset containing CT scans of multiple organs. We report a significant improvement of overall dice score from 0.8849 to 0.9018 due to the incorporation of complementary-task learning.
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Navarro, F., Shit, S., Ezhov, I., Paetzold, J., Gafita, A., Peeken, J. C., … Menze, B. H. (2019). Shape-Aware Complementary-Task Learning for Multi-organ Segmentation. In Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 11861 LNCS, pp. 620–627). Springer. https://doi.org/10.1007/978-3-030-32692-0_71
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