Surgical scheduling to smooth demand for resources

IF 1.5 Q3 HEALTH CARE SCIENCES & SERVICES Operations Research for Health Care Pub Date : 2023-11-21 DOI:10.1016/j.orhc.2023.100411
Michael W. Carter , Saeedeh Ketabi
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引用次数: 0

Abstract

With the growing demand for healthcare resources, pressure on efficient usage of available bed capacity is increasing. Peaks in bed demand corresponds to overcrowding in upstream units such as emergency department or operating rooms. With a balanced schedule in elective surgeries integrated into the master surgical schedule, peak traffic can be leveled across the week without changing resource capacity. Hence, overcrowding is reduced without turning away any patients or increasing bed capacity.

This study formulates the integration of master surgical and elective surgery scheduling problems as an Integer Programming model to minimize the fluctuation in the required ward beds for elective inpatients admitted for surgery to the hospital, by changing the day of surgery. This demonstrates the opportunities for smoothing the expected patient demand for beds by adjusting the operating room schedule. This decision is made at the tactical level. The model has been examined using data on the elective patient demand for beds in the hospital during typical weeks driven from Hamilton Health Sciences in Ontario, Canada. The integer programming model has been solved using GAMS/CoinCBC MIP Solver. The model enhances bed management by not only smoothing but also reducing the peak demand. The optimal schedule reduces the peak patient demand for bed by about 3–19% for the test samples. The model can be extended to cover the demand for other resources such as ICU beds.

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手术调度,以满足资源需求
随着对医疗资源的需求不断增长,有效利用现有病床容量的压力越来越大。床位需求高峰对应于上游单位如急诊科或手术室的过度拥挤。将选择性手术的平衡时间表整合到主手术时间表中,高峰流量可以在不改变资源容量的情况下在一周内保持平衡。因此,在没有拒绝任何病人或增加床位容量的情况下,减少了过度拥挤。本研究将主手术与择期手术的调度问题整合为整数规划模型,通过改变择期手术的日期,使住院择期手术患者所需病床的波动最小化。这证明了通过调整手术室时间表来平滑预期患者对床位的需求的机会。这个决定是在战术层面上做出的。该模型使用了加拿大安大略省汉密尔顿健康科学公司在典型周内对医院病床的选择性患者需求数据进行了检验。利用GAMS/ cobcmip求解器对整数规划模型进行了求解。该模型不仅平滑,而且降低了高峰需求,从而提高了床位管理水平。最优的时间表使患者对测试样本的床位需求高峰减少了约3-19%。该模型可以扩展到其他资源,如ICU床位的需求。
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来源期刊
Operations Research for Health Care
Operations Research for Health Care HEALTH CARE SCIENCES & SERVICES-
CiteScore
3.90
自引率
0.00%
发文量
9
审稿时长
69 days
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