Deep Active Learning for Classifying Cancer Pathology Reports

Authors

Kevin De Angeli, Oak Ridge National Laboratory
Shang Gao, Oak Ridge National Laboratory
Mohammed Alawad, Oak Ridge National Laboratory
Hong Jun Yoon, Oak Ridge National Laboratory
Noah Schaefferkoetter, Oak Ridge National Laboratory
Xiao Cheng Wu, LSU Health Sciences Center- New OrleansFollow
Eric B. Durbin, University of Kentucky College of Medicine
Jennifer Doherty, University of Utah School of Medicine
Antoinette Stroup, New Jersey Department of Health and Senior Services
Linda Coyle, Information Management Services, Inc.
Lynne Penberthy, National Cancer Institute (NCI)
Georgia Tourassi, Oak Ridge National Laboratory

Document Type

Article

Publication Date

4-9-2021

Publication Title

BMC Bioinformatics

Abstract

Background: Automated text classification has many important applications in the clinical setting; however, obtaining labelled data for training machine learning and deep learning models is often difficult and expensive. Active learning techniques may mitigate this challenge by reducing the amount of labelled data required to effectively train a model. In this study, we analyze the effectiveness of 11 active learning algorithms on classifying subsite and histology from cancer pathology reports using a Convolutional Neural Network as the text classification model. Results: We compare the performance of each active learning strategy using two differently sized datasets and two different classification tasks. Our results show that on all tasks and dataset sizes, all active learning strategies except diversity-sampling strategies outperformed random sampling, i.e., no active learning. On our large dataset (15K initial labelled samples, adding 15K additional labelled samples each iteration of active learning), there was no clear winner between the different active learning strategies. On our small dataset (1K initial labelled samples, adding 1K additional labelled samples each iteration of active learning), marginal and ratio uncertainty sampling performed better than all other active learning techniques. We found that compared to random sampling, active learning strongly helps performance on rare classes by focusing on underrepresented classes. Conclusions: Active learning can save annotation cost by helping human annotators efficiently and intelligently select which samples to label. Our results show that a dataset constructed using effective active learning techniques requires less than half the amount of labelled data to achieve the same performance as a dataset constructed using random sampling.

First Page

1

Last Page

25

PubMed ID

33750288

Volume

22

Issue

1

Publisher

BioMed Central

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Recommended Citation

De Angeli, Kevin; Gao, Shang; Alawad, Mohammed; Yoon, Hong Jun; Schaefferkoetter, Noah; Wu, Xiao Cheng; Durbin, Eric B.; Doherty, Jennifer; Stroup, Antoinette; Coyle, Linda; Penberthy, Lynne; and Tourassi, Georgia, "Deep Active Learning for Classifying Cancer Pathology Reports" (2021). School of Public Health Faculty Publications. 53.
https://digitalscholar.lsuhsc.edu/soph_facpubs/53

File Format

pdf

File Size

3013 KB