Forecasting emergency department crowding: a prospective, real-time evaluation.

Hoot NR, Leblanc LJ, Jones I, Levin SR, Zhou C, Gadd CS, Aronsky D
J Am Med Inform Assoc. 2009 16 (3): 338-45

PMID: 19261948 · PMCID: PMC2732235 · DOI:10.1197/jamia.M2772

OBJECTIVE - Emergency department crowding threatens quality and access to health care, and a method of accurately forecasting near-future crowding should enable novel ways to alleviate the problem. The authors sought to implement and validate the previously developed ForecastED discrete event simulation for real-time forecasting of emergency department crowding.

DESIGN AND MEASUREMENTS - The authors conducted a prospective observational study during a three-month period (5/1/07-8/1/07) in the adult emergency department of a tertiary care medical center. The authors connected the forecasting tool to existing information systems to obtain real-time forecasts of operational data, updated every 10 minutes. The outcome measures included the emergency department waiting count, waiting time, occupancy level, length of stay, boarding count, boarding time, and ambulance diversion; each forecast 2, 4, 6, and 8 hours into the future.

RESULTS - The authors obtained crowding forecasts at 13,239 10-minute intervals, out of 13,248 possible (99.9%). The R(2) values for predicting operational data 8 hours into the future, with 95% confidence intervals, were 0.27 (0.26, 0.29) for waiting count, 0.11 (0.10, 0.12) for waiting time, 0.57 (0.55, 0.58) for occupancy level, 0.69 (0.68, 0.70) for length of stay, 0.61 (0.59, 0.62) for boarding count, and 0.53 (0.51, 0.54) for boarding time. The area under the receiver operating characteristic curve for predicting ambulance diversion 8 hours into the future, with 95% confidence intervals, was 0.85 (0.84, 0.86).

CONCLUSIONS - The ForecastED tool provides accurate forecasts of several input, throughput, and output measures of crowding up to 8 hours into the future. The real-time deployment of the system should be feasible at other emergency departments that have six patient-level variables available through information systems.

MeSH Terms (16)

Adult Bed Occupancy Computer Graphics Computer Simulation Crowding Emergency Service, Hospital Forecasting Humans Length of Stay Models, Organizational Models, Statistical Observation Operations Research Prospective Studies ROC Curve Time Factors

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