Xin Wang, Tao Tan, Yuan Gao, Eric Marcus, Luyi Han, Antonio Portaluri, Tianyu Zhang, Chunyao Lu, Xinglong Liang, Regina Beets-Tan, Jonas Teuwen, Ritse Mann
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Ordinal Learning: Longitudinal Attention Alignment Model for Predicting Time to Future Breast Cancer Events from Mammograms
Precision breast cancer (BC) risk assessment is crucial for developing
individualized screening and prevention. Despite the promising potential of
recent mammogram (MG) based deep learning models in predicting BC risk, they
mostly overlook the 'time-to-future-event' ordering among patients and exhibit
limited explorations into how they track history changes in breast tissue,
thereby limiting their clinical application. In this work, we propose a novel
method, named OA-BreaCR, to precisely model the ordinal relationship of the
time to and between BC events while incorporating longitudinal breast tissue
changes in a more explainable manner. We validate our method on public EMBED
and inhouse datasets, comparing with existing BC risk prediction and time
prediction methods. Our ordinal learning method OA-BreaCR outperforms existing
methods in both BC risk and time-to-future-event prediction tasks.
Additionally, ordinal heatmap visualizations show the model's attention over
time. Our findings underscore the importance of interpretable and precise risk
assessment for enhancing BC screening and prevention efforts. The code will be
accessible to the public.
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