COVID-19 Research Resources
A curated list of research resources around guidelines, policies, and procedures related to COVID-19, drawn from Harvard University, affiliated academic healthcare centers, and government funding agencies

COVID-19 Research Resources
A curated list of research resources around guidelines, policies, and procedures related to COVID-19, drawn from Harvard University, affiliated academic healthcare centers, and government funding agencies

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Seminar: Multimodal Multitask Representation Learning for Pathology Biobank Metadata Prediction – February 24

Monday, February 24, 2020
4:00 pm – 5:00 pm
Cotran 3 (formerly Amory Building), 75 Francis Street, BWH

Seminar: Multimodal Multitask Representation Learning for Pathology Biobank Metadata Prediction

Join us for the Junior Investigators Advanced Biomedical Computation (ABC) series.

Speaker: Wei-Hung Weng, MD, MMSc, graduate research assistant at MIT Computer Science and Artificial Intelligence Laboratory (CSAIL).

Abstract: Metadata are general characteristics of the data in a well-curated and condensed format, and have been proven to be useful for decision making, knowledge discovery, and also heterogeneous data organization of biobank. Among all data types in the biobank, pathology is the key component of the biobank and also serves as the gold standard of diagnosis. To maximize the utility of biobank and allow the rapid progress of biomedical science, it is essential to organize the data with well-populated pathology metadata. However, manual annotation of such information is tedious and time-consuming. In the study, we develop a multimodal multitask learning framework to predict four major slide-level metadata of pathology images. The framework learns generalizable representations across tissue slides, pathology reports, and case-level structured data. We demonstrate improved performance across all four tasks with the proposed method compared to a single modal single task baseline on two test sets, one external test set from a distinct data source (TCGA) and one internal held-out test set (TTH). In the test sets, the performance improvements on the averaged area under receiver operating characteristic curve across the four tasks are 16.48% and 9.05% on TCGA and TTH, respectively. Such pathology metadata prediction system may be adopted to mitigate the effort of expert annotation and ultimately accelerate the data-driven research by better utilization of the pathology biobank.

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