key: cord-0857142-6eldowm0
authors: Carrier, François Martin; Amzallag, Éva; Lecluyse, Vincent; Côté, Geneviève; Couture, Étienne J.; D’Aragon, Frédérick; Kandelman, Stanislas; Turgeon, Alexis F.; Deschamps, Alain; Nitulescu, Roy; Djade, Codjo Djignefa; Girard, Martin; Beaulieu, Pierre; Richebé, Philippe
title: Postoperative outcomes in surgical COVID-19 patients: a multicenter cohort study
date: 2021-01-12
journal: BMC Anesthesiol
DOI: 10.1186/s12871-021-01233-9
sha: 54a7a6d79abddd292a6682e8506608347598119f
doc_id: 857142
cord_uid: 6eldowm0

BACKGROUND: Data on postoperative outcomes of the COVID-19 patient population is limited. We described COVID-19 patients who underwent a surgery and the pandemic impact on surgical activities. METHODS: We conducted a multicenter cohort study between March 13 and June 192,020. We included all COVID-19 patients who underwent surgery in nine centres of the Province of Québec, the Canadian province most afflicted by the pandemic. We also included concomitant suspected COVID-19 (subsequently confirmed not to have COVID-19) patients and patients who had recovered from it. We collected data on baseline characteristics, postoperative complications and postoperative mortality. Our primary outcome was 30-day mortality. We also collected data on overall surgical activities during this first wave and during the same period in 2019. RESULTS: We included 44 COVID-19 patients, 18 suspected patients, and 18 patients who had recovered from COVID-19 at time of surgery. Among the 44 COVID-19 patients, 31 surgeries (71%) were urgent and 16 (36%) were major. In these patients, pulmonary complications were frequent (25%) and 30-day mortality was high (15.9%). This mortality was higher in patients with symptoms (23.1%) compared to those without symptoms (5.6%), although not statistically significant (p = 0.118). Of the total 22,616 cases performed among participating centres during the study period, only 0.19% had COVID-19 at the time of surgery. Fewer procedures were performed during the study period compared to the same period in 2019 (44,486 cases). CONCLUSION: In this Canadian cohort study, postoperative 30-day mortality in COVID-19 patients undergoing surgery was high (15.9%). Although few surgeries were performed on COVID-19 patients, the pandemic impact on surgical activity volume was important. TRIAL REGISTRATION: ClinicalTrials.gov Identifier: NCT04458337. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s12871-021-01233-9.

The world is experiencing a pandemic on a scale that has not been seen for many decades. Estimates of COVID-19 (Coronavirus Disease 2019) case fatalities are variable and have been reported to be between less than 1 and 7% [1] [2] [3] [4] . Although resource utilization, such as hospitalization, and intensive care unit (ICU) admission, is well documented in COVID-19 patients, data on their surgical needs and outcomes remains limited [1] [2] [3] [4] [5] [6] [7] [8] .

Viral pneumonia is mostly a medical condition, but infected patients may require surgery [7] [8] [9] [10] . To provide anesthetic and surgical care to COVID-19 patients, healthcare workers have to reorganize surgical platforms, personal protective equipment protocols, and in-hospital patient trajectories to prevent a viral spread to healthcare workers and other patients [11] [12] [13] [14] [15] . Documenting the needs for, and variety of, surgical procedures in this population is paramount in order to estimate the accrued risk for the patients.

Postoperative outcomes in SARS-CoV-2 infected patients have been previously reported [7, 8, 16] . Recently published data suggest an overall postoperative 30-day mortality between 19 and 24%, with more than half of the patients having postoperative pulmonary complications. These studies, mostly from Europe and the Middle East, did not report the overall impact of the pandemic on surgical activity. The surgical needs and postoperative outcomes of COVID-19 patients, as well as the overall access to surgical care during such a pandemic have yet to be fully evaluated in a Canadian setting.

To address this, we conducted a multicenter observational cohort study in the Province of Québec, the Canadian province most afflicted by the pandemic [17] . Our primary objective was to describe the perioperative characteristics of patients infected by SARS-CoV-2 who underwent surgery and their postoperative outcomes. Our secondary objectives were to explore the effect of the presence of symptoms on outcomes, describe the impact of the SARS-CoV-2 pandemic on overall surgical care and describe the characteristics and outcomes of suspected COVID-19 patients and those who had recovered from COVID-19 and underwent surgery during the same observation period. We hypothesized that the number of COVID-19 surgical patients would be small with a higher mortality among those with symptoms, that the impact of the pandemic on surgical care would be notable and that postoperative outcomes would be comparable between COVID-19 and suspected patients.

After Research Ethics Board approval from all centres, we conducted a multicenter observational cohort study based on a waived consent model in nine university hospitals in the Province of Québec from March 13, 2020, to June 19, 2020 . This report follows STROBE guidelines for reporting observational studies [18] .

We included all consecutive patients undergoing surgery who had tested positive for SARS-CoV-2 preoperatively. We defined positive SARS-CoV-2 infection by any positive Polymerase Chain Reaction (PCR) test (from either an oronasopharyngeal swab or an endotracheal aspirate) either before surgery or within 72 h after surgery and defined being symptomatic by the presence of any patientreported COVID-19-related symptoms (fever, respiratory distress, etc).

We also included all patients undergoing surgery during the same period who were suspected of having COVID-19 at time of surgery (but subsequently tested negative) and all patients who had recovered from COVID-19. We defined suspected patients by the presence of the same COVID-19-related symptoms with unknown SARS-CoV-2 infection status at time of surgery (but later confirmed negative for SARS-CoV-2) which prompted the operating room team to take specific COVID-19-related precautions. We defined recovery as a patient who previously had a positive PCR test and then had two negative PCR tests for SARS-CoV-2 before surgery (or one negative test performed at least 14 days before surgery and the absence of symptoms at time of surgery). Patients were identified through the electronic medical data system or the operating room database specific to each site.

To address our primary objective, we first reported data on COVID-19 patients. To address our secondary objectives, we used the presence of COVID-19-related symptoms as an exposure variable and reported stratified data based on this variable for COVID-19 patients. To address another secondary objective, we used the COVID-19 disease status (confirmed, suspected, or recovered) as an exposure variable.

We collected baseline characteristics of the COVID-19 presentation such as the presence of symptoms at time of surgery, number of days since first symptoms or diagnosis, preoperative need for oxygen or invasive mechanical ventilation, and received treatments (e.g., antiviral agents, steroids, antibiotics). We also recorded demographic characteristics, baseline comorbidities, type of surgery, urgency of surgery, baseline laboratory values, preoperative Sequential Organ Failure Assessment (SOFA) score and intraoperative variables.

Our primary outcome was 30-day survival after surgery. Our secondary outcomes were the postoperative occurrence of respiratory complications (atelectasis, pneumonia, Acute Respiratory Distress Syndrome [ARDS], and pulmonary aspiration), non-pulmonary infectious complications, acute kidney injury, thrombotic-associated complications (pulmonary embolism, myocardial infarction, stroke and cardiac arrest), hospital length of stay, 30-day mechanical ventilation-free days, 30-day organ dysfunction-free days, and any new ICU admission during the index admission. The endpoints we examined regarding the overall impact on surgical care were the number of cases performed during the inclusion period; the duration of the procedures; the required time to allow for operating room preparation, cleaning, and patient extubation; and other post-anesthesia care procedures. We collected similar data in all sites during a comparable period of observation (i.e., same dates) of the preceding year.

We classified procedures into the following categories: neurosurgical (head and spine), cardiac, thoracic, major vascular (intrathoracic and/or intra-abdominal), nonvascular abdominal (laparotomy or laparoscopy), urogenital (urology and/or gynecology), non-spine orthopedic, peripheral vascular, otolaryngology-head-neck and other. Major surgery was defined as any neurosurgical, cardiac, thoracic, major vascular (cervical, intrathoracic and/or intra-abdominal) or non-vascular abdominal surgery (any intra-abdominal surgery). We also collected data on the surgical approach (minimally invasive, including laparoscopy, or invasive). Urgency of surgery was defined as the need to be performed within 24 h as requested by surgeons.

We measured survival at 30 days (within hospital or later after discharge if data available) and censored patients at last visit seen alive or at 30 days if still alive. We used existing definitions for postoperative pulmonary complications outcome (atelectasis, pneumonia, ARDS, pneumothorax) [19] . Non-pulmonary infectious complications were defined as any infection requiring antibiotics for > 72 h. Acute kidney injury was defined by the creatinine difference of the KDIGO-AKI criteria [20] . We defined thrombotic-related complications as reported by the treating physicians including pulmonary embolism, myocardial infarction, stroke or cardiac arrest. Mechanical ventilation was defined as the need for mechanical support (non-invasive or invasive). Organ dysfunction was defined as the need for vasopressors, mechanical ventilation and the use of renal replacement therapy after surgery [21] . The 30-day freedom from adverse outcomes included any day without the corresponding outcome.

Data was either collected prospectively by the clinical and the research team or retrospectively collected the days following surgery. Data was entered at each site into a centralized electronic database following a manual of standard operating procedures and individual site training. Outcomes were adjudicated by a physician at each site. The surgical impact data was extracted as aggregate data from operating room administrative systems of each centre.

We included a convenience sample of all eligible patients who underwent surgery during the observation period. Due to the limited sample size, the reported analyses are primarily descriptive. We reported continuous variables as mean (standard deviations (SD)) or median [interquartile range [IQR] ] for skewed distributions) and categorical variables as proportions. We reported 30-day survival using Kaplan-Meier estimates with 95% confidence intervals (CI) stratified by subgroups. To compare symptomatic COVID-19 patients to asymptomatic ones, and COVID-19 patients to suspected ones and those who had recovered, we performed log-rank tests. Finally, we conducted a post hoc sensitivity analysis by removing patients for whom a tracheotomy was the surgical procedure performed, since they may have a different postoperative trajectory. We set our alpha level at 0.05. All analyses were performed with R statistical software (R Core Team, version 4.0.2).

Baseline and surgical characteristics are reported in Table 1 for COVID-19 patients and in Table S2 for other patients, while surgical specialties are reported in Table S1 for all included patients.

Forty-four patients (42 with a preoperative positive PCR test) with COVID-19 underwent a surgical procedure between March 13, 2020, and June 19, 2020. Among these 44 patients with COVID-19, 26 patients were symptomatic at time of surgery with 18 being asymptomatic carriers. Demographics and surgical characteristics were similar between these groups, except for preoperative treatments and respiratory support (Table 1 ). In these patients, 71% of surgeries were urgent, 36% were major ones and 64% were performed under general anesthesia; these characteristics seemed to be similar between symptomatic and asymptomatic patients (Table 1) . Complications were relatively rare, with the exception of pulmonary complications (25%) and new ICU admissions (27%). These complications seemed to be higher in symptomatic COVID-19 patients ( Table 2 ). The overall 30day mortality was 15.9% in these patients ( Table 2) . This mortality was numerically higher in symptomatic patients (23.1% in symptomatic patients and 5.6% in asymptomatic patients), although the observed difference between strata was not significant (P = 0.12) ( Table 2 and Fig. 1) . As a sensitivity analysis, we excluded six COVID-19 patients who had a tracheotomy as a surgical procedure. In this subgroup of 38 patients, 2 were under invasive mechanical ventilation at surgery and 5 died within 30 days after surgery (13.2%) (not shown in tables).

During this 3-month long first wave of the pandemic, the total number of surgical procedures decreased by 50% as compared to the same time period in 2019 (22, 616 cases in 2020 compared to 44,486 cases in 2019; Table 3 ). Of these 22,616 surgical cases, only 44 (0.19%) had COVID-19.

We included 18 suspected patients and 18 patients who had recovered from COVID-19 (Tables S2 and  S3) . Suspected patients had an incidence of pulmonary complications and new ICU admissions close to symptomatic COVID-19 patients but seemed to have (Tables S2 and S3 ). The observed difference in survival between COVID-19, suspected and patients who had recovered was not statistically significant (P = 0.55, Figure S1 ).

This study provides data on surgeries performed in COVID-19 patients and their postoperative outcomes in the Canadian province most afflicted by the pandemic [17] . We observed an important postoperative 30-day mortality of 15.9% in patients undergoing surgery with COVID-19, potentially from symptomatic patients although we could not conclude. We observed a 50% relative reduction in overall surgical activities during the pandemic in most university hospitals of the province of Quebec.

Overall, SARS-CoV-2 infected patients have not experienced many surgeries during this pandemic wave (< 0.2% of surgical cases). This observation is probably a combination of limited surgical needs in this population and a restriction to surgical care imposed on them until they recover from their infection to potentially reduce postoperative complications [22, 23] . As such, they required mostly urgent minor surgery, although 36% of them required a major one. Routine preoperative testing for SARS-CoV-2 itself has been recently associated with less postoperative pulmonary complications in major surgeries, probably by allowing to postpone or cancel surgery in active cases [24] . Such intervention was not routinely applied to all surgical patients in the Province of Quebec during the first wave due to limited supply of reactants. Nonetheless, 25% of the patients suffered from a pulmonary complications, which is lower than other reported incidences [7, 8] . Similarly to another cohort of COVID-19 surgical patients, we observed a small incidence of thromboembolic complications (4.5%) for a population of patients undergoing mostly urgent surgeries [7] .

Our observed 30-day mortality of 15.9% seemed to be lower than the 19.5 to 23.9% reported mortalities in other cohort studies [7, 8, 16] . The possible discrepancy might be explained by random variation, different patient selection for surgery or different overall perioperative care. However, our Kaplan-Meir 30-day survival probability confidence interval in COVID-19 patients was wide (from 0.74 to 0.96), suggesting that our observation was likely to not be significantly different from other ones. One group compared postoperative outcomes in 41 COVID-19 patients to 82 non-COVID-19 patients matched by surgical disease [8] . They observed a higher proportion of complications and mortality in COVID-19 patients, but non-COVID-19 patients had a better preoperative respiratory function, did not need any mechanical ventilation and were not in septic shock at time of surgery [7, 8] . We observed a relatively comparable mortality between suspected patients (16.7%) and symptomatic COVID-19 patients (23.1%), suggesting that postoperative mortality may be secondary to the presence of an active infectious process at surgery. Such observation could also be explained by false negative COVID-19 results in suspected patients, potentially aligning their outcome to those of COVID-19 patients [25] . Overall, like other groups, we observed a moderately high 30-day postoperative mortality that was higher than expected in non-cardiac surgery (1-4%) [26, 27] .

Surgical care should not be overlooked during a pandemic. Even though mobilizing surgical ward and operating room resources to care for SARS-CoV-2 infected patients, population's surgical needs have to be fulfilled [15, 28, 29] . Compared to the previous year, more than [30] . During the first wave of the COVID-19 pandemic, we observed a reduction in surgical activity of 50% over 3 months in 9 participating centres, although the impact is probably beyond what we observed. Thus, a significant backlog of surgeries will have to be undertaken while the health system is still stressed by the pandemic [23] . Real-time system utilization indicators should be further developed and applied during a pandemic to help adapt surgical elective programs within system overwhelming prevention strategies as well as "COVID-19 free pathways" to prevent crosscontamination [31, 32] . Allocating care to COVID-19 patients is paramount, but this should not be done at the price of over restricting care in surgical patients to ensure proportional resource allocation across all population subgroups. Our study has limitations. Its main limitation is the small sample size. While this highlights the limited number of surgeries performed in this population, it precluded any regression-based quantitative analysis on determinants of poor postoperative outcomes. We did not have the power to quantitatively measure association with either the presence of symptoms in COVID-19 or the presence of an active infection compared to our controls. Also, our comparators are biased, since "suspected" patients were by definition sick patients and "patients who had recovered" were fit enough patients to undergo an elective surgical procedure. Since we included patients tested positive for SARS-CoV-2, we could have missed untested patients, especially asymptomatic ones. However, this was probably limited since all patients having compatible symptoms or any risk factor for SARS-CoV-2 based on Québec Public Health Agency guidelines were tested prior to surgery. Our observations must therefore be interpreted as descriptive and exploratory. On the other hand, we included patients from many centers, providing relative generalizable results. Despite these limitations, we were able to draw a perspective of the surgical care during the current pandemic in Québec, Canada's hardest hit province with almost half of the national COVID-19 cases.

Our findings from this multicenter Canadian cohort study suggest that COVID-19 patients undergoing a surgery have a relatively high postoperative mortality. Our results also suggest that the pandemic had important effects on the overall conduct of surgical care despite limited utilization of surgical resources by COVID-19 patients.

The online version contains supplementary material available at https://doi. org/10.1186/s12871-021-01233-9.

Additional file 1. 

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Publisher's Note

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We would like to thank the anesthesiologists of each centre who helped collect data, as well as students and research assistants who actively participated in activation of the study and data collection.

The datasets generated and analyzed during the current study are not publicly available due to legal restrictions but are available from the corresponding author on reasonable written request and local REB approval. The Province of Quebec does not allow public patient data sharing. The dataset is held on a secured server at the CHUM Research Center.

This study was centrally approved by the "Research Ethics Board (REB) of the Centre hospitalier de l'Université de Montréal" (#19.386) that waived the need for informed consent. The study was subsequently approved by all local REB from each institution. All methods were carried out in accordance with relevant guidelines and regulations.

Not applicable.

The authors have no conflict of interest to declare.