TY - JOUR

T1 - Tactical scheduling of surgeries to level bed utilization in the intensive care unit

AU - Heider, Steffen

AU - Schoenfelder, Jan

AU - McRae, Sebastian

AU - Koperna, Thomas

AU - Brunner, Jens O.

PY - 2020/7/20

Y1 - 2020/7/20

N2 - The intensive care unit is a highly specialized and expensive hospital resource serving both emergency and scheduled patients. The vast majority of scheduled patients arrive from the operating theater. Therefore, the operating theater schedule has a strong impact on intensive care unit occupancy levels. Prior research focuses on the creation of a new master surgery schedule to optimize the patient flow in downstream units. In practice, however, the master surgery schedule affects a multitude of related processes, and changing it causes significant disruptions within the hospital. Hence, our approach emphasizes a centralized reallocation of scheduled surgeries while maintaining the existing master surgery schedule. We propose a mixed-integer quadratic model that optimizes the tactical surgery schedule to balance the expected day-to-day occupancy of scheduled patients in the surgical intensive care unit. Supported by two years of data from a German university hospital, we analyze three planning strategies and their impact on bed utilization in the intensive care unit. Our approach yields an improvement of 17.5% in intensive care bed utilization variability compared to a decentral approach, which is similar to current hospital practice. Additionally, we show that our approach can realize the majority of the improvement potential without the disruptions that derive from an entirely new master surgery schedule.

AB - The intensive care unit is a highly specialized and expensive hospital resource serving both emergency and scheduled patients. The vast majority of scheduled patients arrive from the operating theater. Therefore, the operating theater schedule has a strong impact on intensive care unit occupancy levels. Prior research focuses on the creation of a new master surgery schedule to optimize the patient flow in downstream units. In practice, however, the master surgery schedule affects a multitude of related processes, and changing it causes significant disruptions within the hospital. Hence, our approach emphasizes a centralized reallocation of scheduled surgeries while maintaining the existing master surgery schedule. We propose a mixed-integer quadratic model that optimizes the tactical surgery schedule to balance the expected day-to-day occupancy of scheduled patients in the surgical intensive care unit. Supported by two years of data from a German university hospital, we analyze three planning strategies and their impact on bed utilization in the intensive care unit. Our approach yields an improvement of 17.5% in intensive care bed utilization variability compared to a decentral approach, which is similar to current hospital practice. Additionally, we show that our approach can realize the majority of the improvement potential without the disruptions that derive from an entirely new master surgery schedule.

KW - Intensive care unit

KW - downstream

KW - operating room

KW - quadratic programming

U2 - 10.1080/24725579.2020.1793845

DO - 10.1080/24725579.2020.1793845

M3 - Journal article

VL - 10

SP - 229

EP - 242

JO - IISE Transactions on Healthcare Systems Engineering

JF - IISE Transactions on Healthcare Systems Engineering

SN - 2472-5579

IS - 4

ER -