Original Research

Neurosurgery Operating Room Efficiency During the COVID-19 Era

Journal of Clinical Outcomes Management. 2022 November;29(6):208-213 | 10.12788/jcom.0113

Author(s):

Stefan W. Koester, MS

Puja Jagasia, BS

Campbell Liles, MD

Robert J. Dambrino IV, MD

Michael Feldman, MD

Letha Mathews, MBBS

Vikram Tiwari, PhD

Lola Chambless, MD

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References

1. Koester SW, Catapano JS, Ma KL, et al. COVID-19 and neurosurgery consultation call volume at a single large tertiary center with a propensity- adjusted analysis. World Neurosurg. 2021;146:e768-e772. doi:10.1016/j.wneu.2020.11.017

2. Andreata M, Faraldi M, Bucci E, Lombardi G, Zagra L. Operating room efficiency and timing during coronavirus disease 2019 outbreak in a referral orthopaedic hospital in Northern Italy. Int Orthop. 2020;44(12):2499-2504. doi:10.1007/s00264-020-04772-x

3. Dexter F, Abouleish AE, Epstein RH, et al. Use of operating room information system data to predict the impact of reducing turnover times on staffing costs. Anesth Analg. 2003;97(4):1119-1126. doi:10.1213/01.ANE.0000082520.68800.79

4. Zheng NS, Warner JL, Osterman TJ, et al. A retrospective approach to evaluating potential adverse outcomes associated with delay of procedures for cardiovascular and cancer-related diagnoses in the context of COVID-19. J Biomed Inform. 2021;113:103657. doi:10.1016/j.jbi.2020.103657

5. Alcendor DJ. Targeting COVID-19 vaccine hesitancy in rural communities in Tennessee: implications for extending the COVID- 19 pandemic in the South. Vaccines (Basel). 2021;9(11):1279. doi:10.3390/vaccines9111279

6. Perrone G, Giuffrida M, Bellini V, et al. Operating room setup: how to improve health care professionals safety during pandemic COVID- 19: a quality improvement study. J Laparoendosc Adv Surg Tech A. 2021;31(1):85-89. doi:10.1089/lap.2020.0592

7. Iorio-Morin C, Hodaie M, Sarica C, et al. Letter: the risk of COVID-19 infection during neurosurgical procedures: a review of severe acute respiratory distress syndrome coronavirus 2 (SARS-CoV-2) modes of transmission and proposed neurosurgery-specific measures for mitigation. Neurosurgery. 2020;87(2):E178-E185. doi:10.1093/ neuros/nyaa157

8. Gupta P, Muthukumar N, Rajshekhar V, et al. Neurosurgery and neurology practices during the novel COVID-19 pandemic: a consensus statement from India. Neurol India. 2020;68(2):246-254. doi:10.4103/0028-3886.283130

9. Mercer ST, Agarwal R, Dayananda KSS, et al. A comparative study looking at trauma and orthopaedic operating efficiency in the COVID-19 era. Perioper Care Oper Room Manag. 2020;21:100142. doi:10.1016/j.pcorm.2020.100142

10. Rozario N, Rozario D. Can machine learning optimize the efficiency of the operating room in the era of COVID-19? Can J Surg. 2020;63(6):E527-E529. doi:10.1503/cjs.016520

11. Toh KHQ, Barazanchi A, Rajaretnam NS, et al. COVID-19 response by New Zealand general surgical departments in tertiary metropolitan hospitals. ANZ J Surg. 2021;91(7-8):1352-1357. doi:10.1111/ ans.17044

12. Moorthy RK, Rajshekhar V. Impact of COVID-19 pandemic on neurosurgical practice in India: a survey on personal protective equipment usage, testing, and perceptions on disease transmission. Neurol India. 2020;68(5):1133-1138. doi:10.4103/0028- 3886.299173

13. Meneghini RM. Techniques and strategies to optimize efficiencies in the office and operating room: getting through the patient backlog and preserving hospital resources. J Arthroplasty. 2021;36(7S):S49-S51. doi:10.1016/j.arth.2021.03.010

14. Jean WC, Ironside NT, Sack KD, et al. The impact of COVID- 19 on neurosurgeons and the strategy for triaging non-emergent operations: a global neurosurgery study. Acta Neurochir (Wien). 2020;162(6):1229-1240. doi:10.1007/s00701-020- 04342-5

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From the Department of Neurological Surgery, Vanderbilt University Medical Center, Nashville, TN (Stefan W. Koester, Puja Jagasia, and Drs. Liles, Dambrino IV, Feldman, and Chambless), and the Department of Anesthesiology, Vanderbilt University Medical Center, Nashville, TN (Drs. Mathews and Tiwari).

ABSTRACT

Background: The COVID-19 pandemic has had broad effects on surgical care, including operating room (OR) staffing, personal protective equipment (PPE) utilization, and newly implemented anti-infective measures. Our aim was to assess neurosurgery OR efficiency before the COVID-19 pandemic, during peak COVID-19, and during current times.

Methods: Institutional perioperative databases at a single, high-volume neurosurgical center were queried for operations performed from December 2019 until October 2021. March 12, 2020, the day that the state of Tennessee declared a state of emergency, was chosen as the onset of the COVID-19 pandemic. The 90-day periods before and after this day were used to define the pre-COVID-19, peak-COVID-19, and post-peak restrictions time periods for comparative analysis. Outcomes included delay in first-start and OR turnover time between neurosurgical cases. Preset threshold times were used in analyses to adjust for normal leniency in OR scheduling (15 minutes for first start and 90 minutes for turnover). Univariate analysis used Wilcoxon rank-sum test for continuous outcomes, while chi-square test and Fisher’s exact test were used for categorical comparisons. Significance was defined as P < .05.

Results: First-start time was analyzed in 426 pre-COVID-19, 357 peak-restrictions, and 2304 post-peak-restrictions cases. The unadjusted mean delay length was found to be significantly different between the time periods, but the magnitude of increase in minutes was immaterial (mean [SD] minutes, 6 [18] vs 10 [21] vs 8 [20], respectively; P = .004). The adjusted average delay length and proportion of cases delayed beyond the 15-minute threshold were not significantly different. The proportion of cases that started early, as well as significantly early past a 15-minute threshold, have not been impacted. There was no significant change in turnover time during peak restrictions relative to the pre-COVID-19 period (88 [100] minutes vs 85 [95] minutes), and turnover time has since remained unchanged (83 [87] minutes).

Conclusion: Our center was able to maintain OR efficiency before, during, and after peak restrictions even while instituting advanced infection-control strategies. While there were significant changes, delays were relatively small in magnitude.

Keywords: operating room timing, hospital efficiency, socioeconomics, pandemic.

The COVID-19 pandemic has led to major changes in patient care both from a surgical perspective and in regard to inpatient hospital course. Safety protocols nationwide have been implemented to protect both patients and providers. Some elements of surgical care have drastically changed, including operating room (OR) staffing, personal protective equipment (PPE) utilization, and increased sterilization measures. Furloughs, layoffs, and reassignments due to the focus on nonelective and COVID-19–related cases challenged OR staffing and efficiency. Operating room staff with COVID-19 exposures or COVID-19 infections also caused last-minute changes in staffing. All of these scenarios can cause issues due to actual understaffing or due to staff members being pushed into highly specialized areas, such as neurosurgery, in which they have very little experience. A further obstacle to OR efficiency included policy changes involving PPE utilization, sterilization measures, and supply chain shortages of necessary resources such as PPE.

Neurosurgery in particular has been susceptible to COVID-19–related system-wide changes given operator proximity to the patient’s respiratory passages, frequency of emergent cases, and varying anesthetic needs, as well as the high level of specialization needed to perform neurosurgical care. Previous studies have shown a change in the makeup of neurosurgical patients seeking care, as well as in the acuity of neurological consult of these patients.¹ A study in orthopedic surgery by Andreata et al demonstrated worsened OR efficiency, with significantly increased first-start and turnover times.² In the COVID-19 era, OR quality and safety are crucially important to both patients and providers. Providing this safe and effective care in an efficient manner is important for optimal neurosurgical management in the long term.³ Moreover, the financial burden of implementing new protocols and standards can be compounded by additional financial losses due to reduced OR efficiency.

References

10. Rozario N, Rozario D. Can machine learning optimize the efficiency of the operating room in the era of COVID-19? Can J Surg. 2020;63(6):E527-E529. doi:10.1503/cjs.016520

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Neurosurgery Operating Room Efficiency During the COVID-19 Era

References

ABSTRACT

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