Review of Relation Extraction in Electronic Medical Records

被引：0

作者：

Wang, Chen ^{[1
]}

Li, Ming ^{[1
]}

Ma, Jingang ^{[1
]}

机构：

[1] College of Intelligence and Information Engineering, Shandong University of Traditional Chinese Medicine, Jinan

来源：

Computer Engineering and Applications | 2023年 / 59卷 / 16期

关键词：

deep learning; electronic medical records; pre-trained model; relation extraction;

D O I：

10.3778/j.issn.1002-8331.2209-0366

中图分类号：

学科分类号：

摘要：

The application of information extraction to electronic medical records has yielded rich research results, enabling the utilization of unstructured biomedical data. Relation extraction is an important subtask of information extraction and a bridge from data to knowledge. This paper provides a detailed classification of relation extraction based on different problems and different solutions of relation extraction. Relevant review tasks and representative datasets in the field of relation extraction for electronic medical records are collated. The progress of the application of relation extraction on electronic medical record texts is reviewed in stages, focusing on the wide application of deep learning methods on relation extraction and the progress of pre-trained models on the task of electronic medical record relation extraction at this stage. Finally, an outlook on the field is provided, highlighting the unresolved issues and future research directions. © 2023 Journal of Computer Engineering and Applications Beijing Co., Ltd.; Science Press. All rights reserved.

引用

页码：63 / 73

页数：10

共 70 条

[61]

XUE K, ZHOU Y, MA Z, Et al., Fine-tuning BERT for joint entity and relation extraction in Chinese medical text[C], Proceedings of the 2019 IEEE International Conference on Bioinformatics and Biomedicine, pp. 892-897, (2019)

[62]

LEE J, YOON W, KIM S，, Et al., BioBERT：a pre-trained biomedical language representation model for biomedical text mining[J], Bioinformatics, 36, 4, pp. 1234-1240, (2020)

[63]

LI F，, JIN Y, LIU W，, Et al., Fine-tuning bidirectional encoder representations from transformers（BERT）-based models on large-scale electronic health record notes：an empirical study[J], JMIR Medical Informatics, 7, 3, (2019)

[64]

ALSENTZER E, MURPHY J R, Et al., Publicly available clinical BERT embeddings[J], (2019)

[65]

ALIMOVA I, TUTUBALINA E., Multiple features for clinical relation extraction：a machine learning approach[J], Journal of Biomedical Informatics, 103, (2020)

[66]

NASAR Z, JAFFRY S W, MALIK M K., Named entity recognition and relation extraction：state-of-the-art[J], ACM Computing Surveys, 54, 1, pp. 1-39, (2021)

[67]

YANG H Z, LIU Y X, ZHANG K W，, Et al., Survey on distantly supervised relation extraction[J], Chinese Journal of Computers, 44, 8, pp. 1636-1660, (2021)

[68]

LIANG T, LIU Y，, LIU X, Et al., Distantly-supervised long-tailed relation extraction using constraint graphs[J], IEEE Transactions on Knowledge and Data Engineering, 35, 7, pp. 6852-6865, (2023)

[69]

VERGA P, STRUBELL E, MCCALLUM A., Simultaneously self-attending to all mentions for full-abstract biological relation extraction[J], (2018)

[70]

CHEN Y, ZHOU G, LU J C., Survey on construction and application research for multi-modal knowledge graphs[J], Application Research of Computers, 38, 12, pp. 3535-3543, (2021)

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