Title of article :
Adverse Drug Reaction Detection in Social Media by Deep Learning Methods
Author/Authors :
Rezaei ، Zahra - University of Kashan , Ebrahimpour-Komleh ، Hossein - University of Kashan , Eslami ، Behnaz - Islamic Azad University, Science and Research Branch , Chavoshinejad ، Ramyar Mabna Veterinary Lab , Totonchi ، Mehdi - Academic Center for Education, Culture and Research (ACECR)
Abstract :
Objective: Health-related studies have been recently at the heart attention of the media. Social media, such as Twitter, has become a valuable online tool to describe the early detection of various adverse drug reactions (ADRs). Different medications have adverse effects on various cells and tissues, sometimes more than one cell population would be adversely affected. These types of side effect are occasionally associated with the direct or indirect influence of prescribed drugs but do not have general unfavorable mutagenic consequences on patients. This study aimed to demonstrate a quick and accurate method to collect and classify information based on the distribution of approved data on Twitter. Materials and Methods: In this classification method, we selected ask a patient dataset and combination of Twitter Ask a Patient datasets that comprised of 6,623, 26,934, and 11,623 reviews. We used deep learning methods with the word2vec to classify ADR comments posted by the users and present an architecture by HAN, FastText, and CNN. Results: Natural language processing (NLP) deep learning is able to address more advanced peculiarity in learning information compared to other types of machine learning. Moreover, the current study highlighted the advantage of incorporating various semantic features, including topics and concepts. Conclusion: Our approach predicts drug safety with the accuracy of 93% (the combination of Twitter and Ask a Patient datasets) in a binary manner. Despite the apparent benefit of various conventional classifiers, deep learningbased text classification methods seem to be precise and influential tools to detect ADR.
Keywords :
Adverse Drug Reaction , Classification , Deep Learning , Natural Language Processing , Social Network
Journal title :
Cell Journal(Yakhteh)
Journal title :
Cell Journal(Yakhteh)