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DOI: 10.1055/s-0038-1634109
A Closed Queueing Network Approach to the Analysis of Patient Flow in Health Care Systems[*]
Publication History
Received: 22 November 2004
accepted: 14 December 2005
Publication Date:
07 February 2018 (online)
Summary
Objectives: To model patient flow in health care systems with bed capacity constraints in order to provide a useful decision aid for health service managers.
Methods: We model the patient flow of health care systems using a closed queueing network framework with the assumption that the system is always full. Key performance measures of the health care system are also derived.
Results: Using parameters taken from a study of a geriatric department in the UK, we show that the model is useful in helping service managers to gain better understanding of the behaviour of the system. In addition, we demonstrate that the model could help improving decision-making by allowing managers to explore different options and evaluate their impacts on performance. Our findings highlight the importance of policy makers taking into account the interactions between different phases of care.
Conclusions: We have developed a novel approach to modelling the flow of patients through health care systems with constrained bed capacity.
1 The authors dedicate this paper to Mr. Qingcheng Wang, who tragically died on November 10, 2003 before seeing the fruit of his work.
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References
- 1 Côte MJ. Understanding patient flow. Decis Line 2000; 31: 8-10.
- 2 Harrison GW, Millard PH. Balancing acute and long-term care: The mathematics of throughput in departments of geriatric medicine. Methods Inf Med 1991; 30: 221-8.
- 3 Faddy MJ, McClean SI. Markov chain modelling for geriatric patient care. Methods Inf Med 2005; 44: 369-73.
- 4 Harrison GW. Compartmental models of hospital patient occupancy patterns. In Millard PH, McClean SI. editors Modelling Hospital Resource Use: A different approach to the planning and control of health care systems.London: Royal Society of Medicine Press 1994; pp 53-61.
- 5 Irvine V, McClean SI, Millard PH. Stochastic models for geriatric in-patient behaviour. IMA J Math Appl Med Biol 1994; 11: 207-16.
- 6 Taylor G, McClean SI, Millard PH. Continuoustime Markov models for geriatric patient behaviour. Appl Stoch Models Data Anal 1998; 13: 315-23.
- 7 Taylor G, McClean SI, Millard PH. Stochastic models of geriatric patient bed occupancy behaviour. J R Stat Soc [Ser A] 2000; 163: 39-48.
- 8 Robertazzi TG. Computer Networks and Systems: Queueing Theory and Performance Evaluation. 3rd ed. New York: Springer-Verlag; 2000
- 9 Cox DR, Miller HD. The Theory of Stochastic Processes. London: Methuen 1965
- 10 Bartholomew DJ. Stochastic Models for Social Processes. 3rd ed. London: Wiley 1982
- 11 Baskett F, Chandy KM, Muntz RR, Palacios F. Open, closed and mixed networks of queues with different classes of customers. JACM 1975; 22: 248-60.
- 12 Bolch G, Greiner S, de Meer H, Trivedi KS. Queueing Networks and Markov Chains: Modeling and Performance Evaluation with Computer Science Applications. Wiley 1998
- 13 McClean SI. Continuous-time stochastic models of a multigrade population. J Appl Probab 1978; 15: 26-37.
- 14 Parry A. An age-related service revisited. In Millard PH, McClean SI. editors Go with the Flow: A system approach to healthcare planning.. London: Royal Society of Medicine Press; 1996. pp 127-30.
- 15 Mitchell J, Kafetz K, Rossiter B. Benefits of effective hospital services for elderly people. BMJ 1987; 295: 980-3.
- 16 El-Darzi E, Vasilakis C, Chaussalet T. A simulation modelling approach to evaluating length of stay, occupancy, emptiness and bed-blocking in a hospital geriatric department. Health Care Manag Sci 1998; 1: 143-9.
- 17 McClean SI, Millard PH. A three compartment model of the patient flows in a geriatric department: a decision support approach. Health Care Manag Sci 1998; 1: 159-63.
- 18 Struthers JL. The elderly in hospital. BMJ 1963; 1: 470.