基于排队论原理的急诊科患者流量模型。

An emergency department patient flow model based on queueing theory principles.

机构信息

Department of Emergency Medicine, University of Colorado School of Medicine, Aurora, CO; Division of Emergency Medicine, Washington University in St. Louis School of Medicine, St. Louis, MO.

出版信息

Acad Emerg Med. 2013 Sep;20(9):939-46. doi: 10.1111/acem.12215.

DOI:10.1111/acem.12215

PMID:24050801

Abstract

OBJECTIVES

The objective was to derive and validate a novel queuing theory-based model that predicts the effect of various patient crowding scenarios on patient left without being seen (LWBS) rates.

METHODS

Retrospective data were collected from all patient presentations to triage at an urban, academic, adult-only emergency department (ED) with 87,705 visits in calendar year 2008. Data from specific time windows during the day were divided into derivation and validation sets based on odd or even days. Patient records with incomplete time data were excluded. With an established call center queueing model, input variables were modified to adapt this model to the ED setting, while satisfying the underlying assumptions of queueing theory. The primary aim was the derivation and validation of an ED flow model. Chi-square and Student's t-tests were used for model derivation and validation. The secondary aim was estimating the effect of varying ED patient arrival and boarding scenarios on LWBS rates using this model.

RESULTS

The assumption of stationarity of the model was validated for three time periods (peak arrival rate = 10:00 a.m. to 12:00 p.m.; a moderate arrival rate = 8:00 a.m. to 10:00 a.m.; and lowest arrival rate = 4:00 a.m. to 6:00 a.m.) and for different days of the week and month. Between 10:00 a.m. and 12:00 p.m., defined as the primary study period representing peak arrivals, 3.9% (n = 4,038) of patients LWBS. Using the derived model, the predicted LWBS rate was 4%. LWBS rates increased as the rate of ED patient arrivals, treatment times, and ED boarding times increased. A 10% increase in hourly ED patient arrivals from the observed average arrival rate increased the predicted LWBS rate to 10.8%; a 10% decrease in hourly ED patient arrivals from the observed average arrival rate predicted a 1.6% LWBS rate. A 30-minute decrease in treatment time from the observed average treatment time predicted a 1.4% LWBS. A 1% increase in patient arrivals has the same effect on LWBS rates as a 1% increase in treatment time. Reducing boarding times by 10% is expected to reduce LWBS rates by approximately 0.8%.

CONCLUSIONS

This novel queuing theory-based model predicts the effect of patient arrivals, treatment time, and ED boarding on the rate of patients who LWBS at one institution. More studies are needed to validate this model across other institutions.

摘要

目的

本研究旨在建立并验证一种新的排队论模型，以预测各种患者拥堵场景对未得到诊治患者（LWBS）比例的影响。

方法

回顾性收集了 2008 年全年在一家城市学术型成人急诊部进行分诊的所有患者就诊资料，共 87705 例。根据单日或双日将特定时间段内的数据分为推导和验证集。排除时间数据不完整的患者记录。利用已建立的呼叫中心排队模型，对输入变量进行修改，使其适应急诊环境，同时满足排队论的基本假设。主要目的是建立和验证急诊流量模型。推导和验证使用卡方检验和学生 t 检验。次要目的是使用该模型估计不同急诊患者到达和候诊场景对 LWBS 比例的影响。

结果

该模型在三个时间段（高峰到达率=上午 10 点至 12 点；中等到达率=上午 8 点至 10 点；最低到达率=上午 4 点至 6 点）和不同的周几和月份都验证了平稳性假设。在上午 10 点至 12 点，定义为代表高峰到达的主要研究时段，有 3.9%（n=4038）的患者 LWBS。使用推导的模型，预测的 LWBS 率为 4%。随着急诊患者到达率、治疗时间和急诊候诊时间的增加，LWBS 率增加。与观察到的平均到达率相比，每小时急诊患者到达率增加 10%，预测的 LWBS 率增加到 10.8%；每小时急诊患者到达率减少 10%，预测的 LWBS 率减少 1.6%。与观察到的平均治疗时间相比，治疗时间减少 30 分钟，预测的 LWBS 率减少 1.4%。患者到达率增加 1%对 LWBS 率的影响与治疗时间增加 1%相同。将候诊时间减少 1%预计将使 LWBS 率降低约 0.8%。