Predicting Injectable Medication Adherence via a Smart Sharps Bin and Machine Learning
Autor: | Yingqi Gu, Akshay Zalkikar, Tomas E. Ward, Kieran Daly, Lara Kelly |
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Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: |
FOS: Computer and information sciences
Computer Science - Machine Learning Computer science business.industry Psychological intervention Medication adherence Machine Learning (stat.ML) 030204 cardiovascular system & hematology Machine learning computer.software_genre Bin Machine Learning (cs.LG) 03 medical and health sciences 0302 clinical medicine Work (electrical) Statistics - Machine Learning 030212 general & internal medicine Artificial intelligence business computer |
Zdroj: | WF-IoT |
Popis: | Medication non-adherence is a widespread problem affecting over 50% of people who have chronic illness and need chronic treatment. Non-adherence exacerbates health risks and drives significant increases in treatment costs. In order to address these challenges, the importance of predicting patients' adherence has been recognised. In other words, it is important to improve the efficiency of interventions of the current healthcare system by prioritizing resources to the patients who are most likely to be non-adherent. Our objective in this work is to make predictions regarding individual patients' behaviour in terms of taking their medication on time during their next scheduled medication opportunity. We do this by leveraging a number of machine learning models. In particular, we demonstrate the use of a connected IoT device; a "Smart Sharps Bin", invented by HealthBeacon Ltd.; to monitor and track injection disposal of patients in their home environment. Using extensive data collected from these devices, five machine learning models, namely Extra Trees Classifier, Random Forest, XGBoost, Gradient Boosting and Multilayer Perception were trained and evaluated on a large dataset comprising 165,223 historic injection disposal records collected from 5,915 HealthBeacon units over the course of 3 years. The testing work was conducted on real-time data generated by the smart device over a time period after the model training was complete, i.e. true future data. The proposed machine learning approach demonstrated very good predictive performance exhibiting an Area Under the Receiver Operating Characteristic Curve (ROC AUC) of 0.86. This paper has been accepted by IEEE IoT World Forum |
Databáze: | OpenAIRE |
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