Deep Multi-Magnification Networks for Multi-Class Breast Cancer Image Segmentation
October 29, 2019 Β· Declared Dead Β· π Comput. Medical Imaging Graph.
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Authors
David Joon Ho, Dig V. K. Yarlagadda, Timothy M. D'Alfonso, Matthew G. Hanna, Anne Grabenstetter, Peter Ntiamoah, Edi Brogi, Lee K. Tan, Thomas J. Fuchs
arXiv ID
1910.13042
Category
eess.IV: Image & Video Processing
Cross-listed
cs.CV
Citations
116
Venue
Comput. Medical Imaging Graph.
Last Checked
4 months ago
Abstract
Pathologic analysis of surgical excision specimens for breast carcinoma is important to evaluate the completeness of surgical excision and has implications for future treatment. This analysis is performed manually by pathologists reviewing histologic slides prepared from formalin-fixed tissue. In this paper, we present Deep Multi-Magnification Network trained by partial annotation for automated multi-class tissue segmentation by a set of patches from multiple magnifications in digitized whole slide images. Our proposed architecture with multi-encoder, multi-decoder, and multi-concatenation outperforms other single and multi-magnification-based architectures by achieving the highest mean intersection-over-union, and can be used to facilitate pathologists' assessments of breast cancer.
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