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Adverse drug reaction detection via a multihop self-attention mechanism

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Indexed by:Journal Papers

First Author:Zhang, Tongxuan

Correspondence Author:Lin, HF (reprint author), Dalian Univ Technol, Coll Comp Sci & Technol, Dalian, Peoples R China.

Co-author:Lin, Hongfei,Ren, Yuqi,Yang, Liang,Xu, Bo,Yang, Zhihao,Wang, Jian,Zhang, Yijia

Date of Publication:2019-09-18

Journal:BMC BIOINFORMATICS

Included Journals:EI、PubMed、SCIE

Volume:20

Issue:1

Page Number:479

ISSN No.:1471-2105

Key Words:Adverse drug reactions; Multihop self-attention mechanism; Complex semantic information; Neural network

Abstract:Background: The adverse reactions that are caused by drugs are potentially life-threatening problems. Comprehensive knowledge of adverse drug reactions (ADRs) can reduce their detrimental impacts on patients. Detecting ADRs through clinical trials takes a large number of experiments and a long period of time. With the growing amount of unstructured textual data, such as biomedical literature and electronic records, detecting ADRs in the available unstructured data has important implications for ADR research. Most of the neural network-based methods typically focus on the simple semantic information of sentence sequences; however, the relationship of the two entities depends on more complex semantic information.
   Methods: In this paper, we propose multihop self-attention mechanism (MSAM) model that aims to learn the multi-aspect semantic information for the ADR detection task. first, the contextual information of the sentence is captured by using the bidirectional long short-term memory (Bi-LSTM) model. Then, via applying the multiple steps of an attention mechanism, multiple semantic representations of a sentence are generated. Each attention step obtains a different attention distribution focusing on the different segments of the sentence. Meanwhile, our model locates and enhances various keywords from the multiple representations of a sentence.
   Results: Our model was evaluated by using two ADR corpora. It is shown that the method has a stable generalization ability. Via extensive experiments, our model achieved F-measure of 0.853, 0.799 and 0.851 for ADR detection for TwiMed-PubMed, TwiMed-Twitter, and ADE, respectively. The experimental results showed that our model significantly outperforms other compared models for ADR detection.
   Conclusions: In this paper, we propose a modification of multihop self-attention mechanism (MSAM) model for an ADR detection task. The proposed method significantly improved the learning of the complex semantic information of sentences.

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