Abstract
Adverse drug reaction (ADR) is widely concerned for public health issue. ADRs are one of most common causes to withdraw some drugs from market. Prescription event monitoring (PEM) is an important approach to detect the adverse drug reactions. The main problem to deal with this method is how to automatically extract the medical events or side effects from high-throughput medical events, which are collected from day to day clinical practice. In this study we propose a novel concept of feature matrix to detect the ADRs. Feature matrix, which is extracted from high-throughput medical data from The Health Improvement Network (THIN) database, is created to characterize the medical events for the patients who take drugs. Feature matrix builds the foundation for the irregular and high-throughput medical data. Then feature selection methods are performed on feature matrix to detect the significant features. Finally the ADRs can be located based on the significant features. The experiments are carried out on three drugs: Atorvastatin, Alendronate, and Metoclopramide. Major side effects for each drug are detected and better performance is achieved compared to other computerized methods. The detected ADRs are based on computerized methods, further investigation is needed.
Highlights
Adverse drug reaction (ADR) is widely concerned for public health issue
In this study we propose a novel method to successfully detect the ADRs by introducing feature matrix and feature selection to detect the significant changes after patients take drugs
A feature matrix, which characterizes the medical events before patients take drugs or after patients take drugs, is created from The Health Improvement Network (THIN) database
Summary
Adverse drug reaction (ADR) is widely concerned for public health issue. ADRs are one of most common causes to withdraw some drugs from market [1]. In paper [18, 19], MUTARA and HUNT, which are based on a domain-driven knowledge representation Unexpected Temporal Association Rule, are proposed to signal unexpected and infrequent patterns characteristic of ADRs, using Queensland Hospital morbidity data, more commonly referred to as the Queensland Linked Data Set (QLDS) [20]. Their methods achieve low accuracies for detecting ADRs. In the paper [21], four existing ADR detecting algorithms were compared by applying them to The Health Improvement Network (THIN) database for a range of drugs. First feature matrix which represents the medical events for the patients before and after taking drugs, is created by linking patients‟
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