The use of preoperative planning to decrease costs and increase efficiency in the OR

Bhavya Sheth; Alessia C Lavin; Christian Martinez; Vani J Sabesan

doi:10.1016/j.jseint.2022.02.004

The use of preoperative planning to decrease costs and increase efficiency in the OR

JSES Int. 2022 Feb 25;6(3):454-458. doi: 10.1016/j.jseint.2022.02.004. eCollection 2022 May.

Authors

Bhavya Sheth¹, Alessia C Lavin², Christian Martinez³, Vani J Sabesan^{3

4}

Affiliations

¹ Maimonides Medical Center, Department of Orthopaedics, Brooklyn, NY, USA.
² Palm Beach Shoulder Service Atlantis Orthopedics, Palm Beach, FL, USA.
³ Ponce Health Sciences University, Ponce, PR, USA.
⁴ Levitetz Department of Orthopedic Surgery, Cleveland Clinic Florida, Weston, FL, USA.

Abstract

Background: Shoulder arthroplasty (SA) incurs up to $1.8B per year in societal costs. With the increasing demand for SA and the steady decrease of annual reimbursements for orthopedic procedures, it has become crucial to control costs. In SA, there has been an interest in using preoperative planning software to improve accuracy in positioning and implant selection, ultimately optimizing outcomes. However, the use of preoperative planning to increase efficiency has not been studied. The purpose of this study was to determine if preoperative planning could increase efficiency and decrease costs in the operating room.

Methods: This retrospective review included 94 patients who underwent shoulder arthroplasty and had a CT scan with a preoperative plan by a single orthopedic surgeon between 2017 and 2020. The patients were divided based on the use of the preoperative plan during surgery. Group 1 included 65 patients with a preoperative plan used during surgery, and group 2 included 29 patients without a preoperative plan utilized during surgery. Average preparation time, surgical time, time in the operating room, the number of trays sterilized, and postoperative outcomes were analyzed between the two groups. Subanalysis was done to find a statistical difference in the cost of sterilization for both groups.

Results: The cohort had 55% males, with an average age of 71 years and an average BMI of 29.9. There were no significant differences between the groups for age, BMI, or ASA class. There was no significant difference between groups in preparation time (group 1: 53.3 min, group 2: 53.1 min P = .924), surgical time (group 1: 119.7 min, group 2: 111.9 min; P = .25), or time in the OR (group 1: 183.2 min, group 2: 173.2 min; P = .156). There was a statistical difference in the number of trays (5 vs. 8; P < .01) and cost of sterilization between groups ($487.30 vs. $842.86; P < .01). No correlation between the number of trays and preparation time (group 1: -0.05, group 2: -0.28) or trays and surgical time was found for either group (group 1: r = -0.31, group 2: r = -0.22). There were no significant differences in postoperative outcomes between the groups.

Conclusion: While preoperative planning did not reduce time in the OR for shoulder arthroplasty, it was correlated to a significant reduction in the number and cost of sterilized trays with comparable postoperative outcomes.

Keywords: Operating room time; Preoperative planning; Shoulder arthroplasty; Surgeon efficiency; Surgical cost; Tray utilization.