An Antimicrobial Prescription Surveillance System that Learns from Experience


  • Mathieu Beaudoin Université de Sherbrooke
  • Froduald Kabanza Université de Sherbrooke
  • Vincent Nault Université de Sherbrooke
  • Louis Valiquette Université de Sherbrooke



Inappropriate prescribing of antimicrobials is a major clinical and health concern, as well as a financial burden, in hospitals worldwide. In this paper, we describe a deployed automated antimicrobial prescription surveillance system that has been assisting hospital pharmacists in identifying and reporting inappropriate antimicrobial prescriptions. One of the key characteristics of this system is its ability to learn new rules for detecting inappropriate prescriptions based on previous false alerts. The supervised learning algorithm combines instancebased learning and rule induction techniques. It exploits temporal abstraction to extract a meaningful time interval representation from raw clinical data, and applies nearest neighbor classification with a distance function on both temporal and non-temporal parameters. The learning capability is valuable both in configuring the system for initial deployment and improving its long term use. We give an overview of the application, point to lessons learned so far and provide insight into the machine learning capability.




How to Cite

Beaudoin, M., Kabanza, F., Nault , V., & Valiquette, L. (2013). An Antimicrobial Prescription Surveillance System that Learns from Experience. Proceedings of the AAAI Conference on Artificial Intelligence, 27(2), 1451-1458.