Abstract
This paper addresses the advance scheduling of elective surgeries in an operating theater composed of operating rooms and a downstream surgical intensive care unit (SICU). The arrivals of new patients in each week, the duration of each surgery, and the length-of-stay of each patient in the SICU are subject to uncertainty. At the end of each week, the surgery planner determines the surgical blocks to open in the next week and assigns a subset of the surgeries on the waiting list to open surgical blocks. The objective is to minimize the patient-related costs incurred by performing and postponing surgeries as well as the hospital-related costs caused by utilization of surgical resources. Considering that the pure mathematical programming models commonly used in the literature mostly focus on the short-term optimization of surgery schedules, we propose a novel two-phase optimization model that combines Markov decision process (MDP) and stochastic programming to improve the long-term performance of surgery schedules. Moreover, in order to solve realistically sized problems efficiently, we develop a novel column-generation-based heuristic (CGBH) algorithm, then combine it with the sample average approximation (SAA) approach. The experimental results indicate that the SAA-CGBH algorithm is considerably more efficient than the conventional SAA approach, and that the optimal surgery schedules of the two-phase optimization model significantly outperform those of a pure stochastic programming model.
Highlights
Facing an increasing pressure caused by aging population, growing healthcare demands, and restrictive budgets, hospitals in many regions of the world are struggling to guarantee the quality and efficiency of healthcare services with limited medical resources
Considering that the pure mathematical programming models commonly used in the litera ture mostly focus on the short-term optimization of surgery schedules, we propose a novel two-phase optimi zation model that combines Markov decision process (MDP) and stochastic programming to improve the longterm performance of surgery schedules
The experimental results indicate that the sample average approximation (SAA)-column-generation-based heuristic (CGBH) algorithm is considerably more efficient than the conventional SAA approach, and that the optimal surgery schedules of the two-phase optimization model significantly outperform those of a pure stochastic programming model
Summary
Facing an increasing pressure caused by aging population, growing healthcare demands, and restrictive budgets, hospitals in many regions of the world are struggling to guarantee the quality and efficiency of healthcare services with limited medical resources. The new surgical demands in each week are unknown, and each surgery is associated with an uncertain duration and an uncertain length-of-stay (LOS) in the SICU. These sources of uncertainty strongly affect the availability and utili zation of surgical resources (Batun, Denton, Huschka, & Schaefer, 2011; Molina-Pariente, Hans, & Framinan, 2018). A policy that schedules too many surgeries during a finite planning period results in short waiting times and high satisfactions of patients, but may lead to severe overutilization of surgical facilities and increase the hospital’s expense; on
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