Detecting Cancer Metastases on Gigapixel Pathology Images

Liu, Yun; Gadepalli, Krishna; Norouzi, Mohammad; Dahl, George E.; Kohlberger, Timo; Boyko, Aleksey S; Venugopalan, Subhashini; Timofeev, Aleksei; Nelson, Philip Q.; Corrado, G.; Hipp, Jason; Peng, Lily; Stumpe, Martin C.

doi:10.48550/arxiv.1703.02442

preprintarXiv (Cornell University)Mar 3, 2017GREEN OA

Detecting Cancer Metastases on Gigapixel Pathology Images

YLYun Liu KGKrishna Gadepalli MNMohammad Norouzi GEGeorge E. Dahl TKTimo Kohlberger

Indexed inarxivdatacite

Abstract

Each year, the treatment decisions for more than 230,000 breast cancer patients in the U.S. hinge on whether the cancer has metastasized away from the breast. Metastasis detection is currently performed by pathologists reviewing large expanses of biological tissues. This process is labor intensive and error-prone. We present a framework to automatically detect and localize tumors as small as 100 x 100 pixels in gigapixel microscopy images sized 100,000 x 100,000 pixels. Our method leverages a convolutional neural network (CNN) architecture and obtains state-of-the-art results on the Camelyon16 dataset in the challenging lesion-level tumor detection task. At 8 false positives per image, we detect 92.4% of the…

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Keywords

Convolutional neural network
False positive paradox
Computer science
Pixel
Artificial intelligence
Cancer
Breast cancer
Data set

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