Florence T. Bourgeois


2024

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Development of a Benchmark Corpus for Medical Device Adverse Event Detection
Susmitha Wunnava | David A. Harris | Florence T. Bourgeois | Timothy A. Miller
Proceedings of the First Workshop on Patient-Oriented Language Processing (CL4Health) @ LREC-COLING 2024

The U.S. Food and Drug Administration (FDA) collects real-world adverse events, including device-associated deaths, injuries, and malfunctions, through passive reporting to the agency’s Manufacturer and User Facility Device Experience (MAUDE) database. However, this system’s full potential remains untapped given the extensive use of unstructured text in medical device adverse event reports and lack of FDA resources and expertise to properly analyze all available data. In this work, we focus on addressing this limitation through the development of an annotated benchmark corpus to support the design and development of state-of-the-art NLP approaches towards automatic extraction of device-related adverse event information from FDA Medical Device Adverse Event Reports. We develop a dataset of labeled medical device reports from a diverse set of high-risk device types, that can be used for supervised machine learning. We develop annotation guidelines and manually annotate for nine entity types. The resulting dataset contains 935 annotated adverse event reports, containing 12252 annotated spans across the nine entity types. The dataset developed in this work will be made publicly available upon publication.

2021

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Sent2Span: Span Detection for PICO Extraction in the Biomedical Text without Span Annotations
Shifeng Liu | Yifang Sun | Bing Li | Wei Wang | Florence T. Bourgeois | Adam G. Dunn
Findings of the Association for Computational Linguistics: EMNLP 2021

The rapid growth in published clinical trials makes it difficult to maintain up-to-date systematic reviews, which require finding all relevant trials. This leads to policy and practice decisions based on out-of-date, incomplete, and biased subsets of available clinical evidence. Extracting and then normalising Population, Intervention, Comparator, and Outcome (PICO) information from clinical trial articles may be an effective way to automatically assign trials to systematic reviews and avoid searching and screening—the two most time-consuming systematic review processes. We propose and test a novel approach to PICO span detection. The major difference between our proposed method and previous approaches comes from detecting spans without needing annotated span data and using only crowdsourced sentence-level annotations. Experiments on two datasets show that PICO span detection results achieve much higher results for recall when compared to fully supervised methods with PICO sentence detection at least as good as human annotations. By removing the reliance on expert annotations for span detection, this work could be used in a human-machine pipeline for turning low-quality, crowdsourced, and sentence-level PICO annotations into structured information that can be used to quickly assign trials to relevant systematic reviews.