Estimating Emergency Department Crowding with Stochastic Population Models

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2023 Dec 1

PMID 38039309

Authors

Gil Parnass

Osnat Levtzion-Korach

Renana Peres

Michael Assaf

Affiliations

Soon will be listed here.

Abstract

Environments such as shopping malls, airports, or hospital emergency-departments often experience crowding, with many people simultaneously requesting service. Crowding highly fluctuates, with sudden overcrowding "spikes". Past research has either focused on average behavior, used context-specific models with a large number of parameters, or machine-learning models that are hard to interpret. Here we show that a stochastic population model, previously applied to a broad range of natural phenomena, can aptly describe hospital emergency-department crowding. We test the model using data from five-year minute-by-minute emergency-department records. The model provides reliable forecasting of the crowding distribution. Overcrowding is highly sensitive to the patient arrival-flux and length-of-stay: a 10% increase in arrivals triples the probability of overcrowding events. Expediting patient exit-rate to shorten the typical length-of-stay by just 20 minutes (8.5%) cuts the probability of severe overcrowding events by 50%. Such forecasting is critical in prevention and mitigation of breakdown events. Our results demonstrate that despite its high volatility, crowding follows a dynamic behavior common to many systems in nature.

Citing Articles

Correction: Estimating emergency department crowding with stochastic population models.

PLoS One. 2024; 19(5):e0304152.

PMID: 38753849 PMC: 11098491. DOI: 10.1371/journal.pone.0304152.

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