Event Extraction with Complex Event Classification Using Rich Features

Overview

Journal J Bioinform Comput Biol

Specialty Biology

Date 2010 Feb 26

PMID 20183879

Citations 49

Authors

Makoto Miwa

Rune Saetre

Jin-Dong Kim

Junichi Tsujii

Affiliations

Soon will be listed here.

Abstract

Biomedical Natural Language Processing (BioNLP) attempts to capture biomedical phenomena from texts by extracting relations between biomedical entities (i.e. proteins and genes). Traditionally, only binary relations have been extracted from large numbers of published papers. Recently, more complex relations (biomolecular events) have also been extracted. Such events may include several entities or other relations. To evaluate the performance of the text mining systems, several shared task challenges have been arranged for the BioNLP community. With a common and consistent task setting, the BioNLP'09 shared task evaluated complex biomolecular events such as binding and regulation.Finding these events automatically is important in order to improve biomedical event extraction systems. In the present paper, we propose an automatic event extraction system, which contains a model for complex events, by solving a classification problem with rich features. The main contributions of the present paper are: (1) the proposal of an effective bio-event detection method using machine learning, (2) provision of a high-performance event extraction system, and (3) the execution of a quantitative error analysis. The proposed complex (binding and regulation) event detector outperforms the best system from the BioNLP'09 shared task challenge.

Citing Articles

A novel corpus of molecular to higher-order events that facilitates the understanding of the pathogenic mechanisms of idiopathic pulmonary fibrosis.

Nagano N, Tokunaga N, Ikeda M, Inoura H, Khoa D, Miwa M Sci Rep. 2023; 13(1):5986.

PMID: 37045907 PMC: 10092917. DOI: 10.1038/s41598-023-32915-8.

Conditional Probability Joint Extraction of Nested Biomedical Events: Design of a Unified Extraction Framework Based on Neural Networks.

Wang Y, Wang J, Lu H, Xu B, Zhang Y, Banbhrani S JMIR Med Inform. 2022; 10(6):e37804.

PMID: 35671070 PMC: 9214613. DOI: 10.2196/37804.

Comparing neural models for nested and overlapping biomedical event detection.

Espinosa K, Georgiadis P, Christopoulou F, Ju M, Miwa M, Ananiadou S BMC Bioinformatics. 2022; 23(1):211.

PMID: 35655127 PMC: 9161617. DOI: 10.1186/s12859-022-04746-3.

PEDL: extracting protein-protein associations using deep language models and distant supervision.

Weber L, Thobe K, Migueles Lozano O, Wolf J, Leser U Bioinformatics. 2020; 36(Suppl_1):i490-i498.

PMID: 32657389 PMC: 7355289. DOI: 10.1093/bioinformatics/btaa430.

Multiple-level biomedical event trigger recognition with transfer learning.

Chen Y BMC Bioinformatics. 2019; 20(1):459.

PMID: 31492112 PMC: 6731566. DOI: 10.1186/s12859-019-3030-z.