JMIR Publications

ABSTRACT

Background:

Event analysis is a promising option to estimate the acceptance of medication alerts issued by computerized physician order entry systems with integrated clinical decision support systems (CPOE-CDSS), particularly when alerts cannot be interactively confirmed in the CPOE-CDSS due to its system architecture. Medication documentation is then reviewed for documented evidence of alert acceptance, a time-consuming process, especially when performed manually.

Objective:

We present a new approach of an automated event analysis and apply it to a large dataset generated in a CPOE-CDSS with passive, non-interruptive alerts.

Methods:

Medication and alert data generated over 3.5 months within the CPOE-CDSS at Heidelberg University Hospital were divided into 24-hour time intervals in which alert display was correlated with associated prescription changes. Alerts were considered as “persistent” if they were displayed in every consecutive 24-hour time interval due to a respective active prescription until patient discharge and as “absent” if they were no longer displayed during continuous prescriptions in the subsequent interval.

Results:

Overall, 1,670 patient cases with 11,428 alerts were analyzed. Alerts were displayed for a median of three consecutive 24-hour time intervals with alerts for drug-allergy interactions displayed the shortest, and the longest for potentially inappropriate medication for the elderly (PIM). A total of 56.1 % of all alerts (n = 6,413) became absent, and among them, alerts for drug-drug interactions were the most common (80.9 %, n = 1,915) and PIM alerts the least common (39.9 %, n = 199).

Conclusions:

This new approach to estimate alert acceptance based on event analysis can be flexibly adapted to the automated evaluation of passive, non-interruptive alerts. This enables large datasets of longitudinal patient cases to be processed, and to derive the ratios of persistent and absent alerts, compare and prospectively monitor them.