Automated identification of extreme-risk events in clinical incident reports
- PMID: 22237865
- PMCID: PMC3392867
- DOI: 10.1136/amiajnl-2011-000562
Automated identification of extreme-risk events in clinical incident reports
Abstract
Objectives: To explore the feasibility of using statistical text classification to automatically detect extreme-risk events in clinical incident reports.
Methods: Statistical text classifiers based on Naïve Bayes and Support Vector Machine (SVM) algorithms were trained and tested on clinical incident reports to automatically detect extreme-risk events, defined by incidents that satisfy the criteria of Severity Assessment Code (SAC) level 1. For this purpose, incident reports submitted to the Advanced Incident Management System by public hospitals from one Australian region were used. The classifiers were evaluated on two datasets: (1) a set of reports with diverse incident types (n=120); (2) a set of reports associated with patient misidentification (n=166). Results were assessed using accuracy, precision, recall, F-measure, and area under the curve (AUC) of receiver operating characteristic curves.
Results: The classifiers performed well on both datasets. In the multi-type dataset, SVM with a linear kernel performed best, identifying 85.8% of SAC level 1 incidents (precision=0.88, recall=0.83, F-measure=0.86, AUC=0.92). In the patient misidentification dataset, 96.4% of SAC level 1 incidents were detected when SVM with linear, polynomial or radial-basis function kernel was used (precision=0.99, recall=0.94, F-measure=0.96, AUC=0.98). Naïve Bayes showed reasonable performance, detecting 80.8% of SAC level 1 incidents in the multi-type dataset and 89.8% of SAC level 1 patient misidentification incidents. Overall, higher prediction accuracy was attained on the specialized dataset, compared with the multi-type dataset.
Conclusion: Text classification techniques can be applied effectively to automate the detection of extreme-risk events in clinical incident reports.
Conflict of interest statement
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References
-
- Kohn L, Corrigan J, Donaldson M. TO err is Human: Building a safer Health System. Committee on Quality of Health Care in America. Washing DC: US Institute of Medicine, National Academy Press, 1999:86–101
-
- Beckmann U, Bohringer C, Carless R, et al. Evaluation of two methods for quality improvement in intensive care: facilitated incident monitoring and retrospective medical chart review. Crit Care Med 2003;31:1006–11 - PubMed
-
- O'Neil AC, Petersen LA, Cook EF, et al. Physician reporting compared with medical-record review to identify adverse medical events. Ann Intern Med 1993;119:370–6 - PubMed
-
- Bagian JP, Lee C, Gosbee J, et al. Developing and deploying a patient safety program in a large health care delivery system: you can't fix what you don't know about. Jt Comm J Qual Improv 2001;27:522–32 - PubMed
-
- Vincent C, Stanhope N, Crowley-Murphy M. Reasons for not reporting adverse incidents: an empirical study. J Eval Clin Pract 1999;5:13–21 - PubMed
