Overview of BioCreAtIvE: Critical Assessment of Information Extraction for Biology

Overview

Journal BMC Bioinformatics

Publisher Biomed Central

Specialty Biology

Date 2005 Jun 18

PMID 15960821

Citations 169

Authors

Lynette Hirschman

Alexander Yeh

Christian Blaschke

Alfonso Valencia

Affiliations

Soon will be listed here.

Abstract

Background: The goal of the first BioCreAtIvE challenge (Critical Assessment of Information Extraction in Biology) was to provide a set of common evaluation tasks to assess the state of the art for text mining applied to biological problems. The results were presented in a workshop held in Granada, Spain March 28-31, 2004. The articles collected in this BMC Bioinformatics supplement entitled "A critical assessment of text mining methods in molecular biology" describe the BioCreAtIvE tasks, systems, results and their independent evaluation.

Results: BioCreAtIvE focused on two tasks. The first dealt with extraction of gene or protein names from text, and their mapping into standardized gene identifiers for three model organism databases (fly, mouse, yeast). The second task addressed issues of functional annotation, requiring systems to identify specific text passages that supported Gene Ontology annotations for specific proteins, given full text articles.

Conclusion: The first BioCreAtIvE assessment achieved a high level of international participation (27 groups from 10 countries). The assessment provided state-of-the-art performance results for a basic task (gene name finding and normalization), where the best systems achieved a balanced 80% precision / recall or better, which potentially makes them suitable for real applications in biology. The results for the advanced task (functional annotation from free text) were significantly lower, demonstrating the current limitations of text-mining approaches where knowledge extrapolation and interpretation are required. In addition, an important contribution of BioCreAtIvE has been the creation and release of training and test data sets for both tasks. There are 22 articles in this special issue, including six that provide analyses of results or data quality for the data sets, including a novel inter-annotator consistency assessment for the test set used in task 2.

Citing Articles

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Integrating deep learning architectures for enhanced biomedical relation extraction: a pipeline approach.

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Vocabulary Matters: An Annotation Pipeline and Four Deep Learning Algorithms for Enzyme Named Entity Recognition.

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Chatr-Aryamontri A, Hirschman L, Ross K, Oughtred R, Krallinger M, Dolinski K Database (Oxford). 2022; 2022.

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