RELATION EXTRACTION MODEL ON DRUG INTERACTION USING BERT AND GRAPH CONVOLUTIONAL NEURAL NETWORK ON BIOMEDICAL LITERATURE
According to the data from the National Center for Health Statistics in 2018, approximately 24% percent of people are taking 3 or more prescription drugs, and 12.8 percent are taking 5 or more. The interaction between drugs is a severe issue which leads to Adverse Drug Events. It will be difficul...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/85591 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | According to the data from the National Center for Health Statistics in 2018, approximately
24% percent of people are taking 3 or more prescription drugs, and 12.8 percent are taking 5
or more. The interaction between drugs is a severe issue which leads to Adverse Drug Events.
It will be difficult for a doctor or pharmacist to spend time monitoring drug interaction for
each patient, even though the doctor or pharmacist understands the interaction probability.
Moreover, the volume of biomedical literature is growing rapidly. There are numerous drug
databases with unstructured information about drug-drug interactions. However, the
challenge is to create a novel model which can capture the contextual information. The
current DDI 2013 dataset is quite imbalanced because more than 80% mention pairs are
negative instances (eq. no relations).
The previous method from Xiong et al (2019) uses Bi-LSTM and GCN. Therefore, in this work
we propose a BERT and Graph Convolutional Neural Network. BERT has the ability to
generate different embeddings for a word depending on the context in which it appears and
also it has been trained to biomedicine literature. In addition, Graph Convolutional Neural
Networks can capture both syntactic and contextual information. The experimental results of
this model have an accuracy of 75.43% and an F1 score of 65% respectively. .The
experiments show that our proposed model can not achieve state-of-the-art on the DDI 2013
task. |
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