Your search keyword '"Fouquier, Jennifer T"' showing total 4 results

1. Applying Citizen Science to Gene, Drug, Disease Relationship Extraction from Biomedical Abstracts

Author

Tsueng, Ginger, Nanis, Max, Fouquier, Jennifer T., Mayers, Michael, Good, Benjamin M., and Su, Andrew I

Subjects

0303 health sciences, Process (engineering), Computer science, computer.software_genre, Data science, Relationship extraction, Task (project management), 03 medical and health sciences, Information extraction, 0302 clinical medicine, Named-entity recognition, Citizen science, Drug-disease, 030212 general & internal medicine, computer, 030304 developmental biology

Abstract

Biomedical literature is growing at a rate that outpaces our ability to harness the knowledge contained therein. In order to mine valuable inferences from the large volume of literature, many researchers have turned to information extraction algorithms to harvest information in biomedical texts. Information extraction is usually accomplished via a combination of manual expert curation and computational methods. Advances in computational methods usually depends on the generation of gold standards by a limited number of expert curators. This process can be time consuming and represents an area of biomedical research that is ripe for exploration with citizen science. Citizen scientists have been previously found to be willing and capable of performing named entity recognition of disease mentions in biomedical abstracts, but it was uncertain whether or not the same could be said of relationship extraction. Relationship extraction requires training on identifying named entities as well as a deeper understanding of how different entity types can relate to one another. Here, we used the web-based application Mark2Cure (https://mark2cure.org) to demonstrate that citizen scientists can perform relationship extraction and confirm the importance of accurate named entity recognition on this task. We also discuss opportunities for future improvement of this system, as well as the potential synergies between citizen science, manual biocuration, and natural language processing.

Published

2019

2. Applying citizen science to gene, drug and disease relationship extraction from biomedical abstracts

Author

Tsueng, Ginger, primary, Nanis, Max, additional, Fouquier, Jennifer T, additional, Mayers, Michael, additional, Good, Benjamin M, additional, and Su, Andrew I, additional

Published

2019

3. Applying Citizen Science to Gene, Drug, Disease Relationship Extraction from Biomedical Abstracts

Author

Tsueng, Ginger, primary, Nanis, Max, additional, Fouquier, Jennifer T., additional, Mayers, Michael, additional, Good, Benjamin M., additional, and Su, Andrew I, additional

Published

2019

4. Applying citizen science to gene, drug and disease relationship extraction from biomedical abstracts.

Author

Tsueng, Ginger, Nanis, Max, Fouquier, Jennifer T, Mayers, Michael, Good, Benjamin M, and Su, Andrew I

Subjects

INTERNET servers, CITIZEN science, DATA mining, NATURAL language processing, WEB-based user interfaces, SOURCE code

Abstract

Motivation Biomedical literature is growing at a rate that outpaces our ability to harness the knowledge contained therein. To mine valuable inferences from the large volume of literature, many researchers use information extraction algorithms to harvest information in biomedical texts. Information extraction is usually accomplished via a combination of manual expert curation and computational methods. Advances in computational methods usually depend on the time-consuming generation of gold standards by a limited number of expert curators. Citizen science is public participation in scientific research. We previously found that citizen scientists are willing and capable of performing named entity recognition of disease mentions in biomedical abstracts, but did not know if this was true with relationship extraction (RE). Results In this article, we introduce the Relationship Extraction Module of the web-based application Mark2Cure (M2C) and demonstrate that citizen scientists can perform RE. We confirm the importance of accurate named entity recognition on user performance of RE and identify design issues that impacted data quality. We find that the data generated by citizen scientists can be used to identify relationship types not currently available in the M2C Relationship Extraction Module. We compare the citizen science-generated data with algorithm-mined data and identify ways in which the two approaches may complement one another. We also discuss opportunities for future improvement of this system, as well as the potential synergies between citizen science, manual biocuration and natural language processing. Availability and implementation Mark2Cure platform: https://mark2cure.org ; Mark2Cure source code: https://github.com/sulab/mark2cure ; and data and analysis code for this article: https://github.com/gtsueng/M2C%5frel%5fnb. Supplementary information Supplementary data are available at Bioinformatics online. [ABSTRACT FROM AUTHOR]

Published

2020