key: cord-310405-7fah22nu
authors: Mathur, Sachin; Jeremy Ng, Chung Fai; Koh, Fangju; Cai, Mingzhe; Palaniappan, Gautham; Linn, Yun Le; Lim, Huiling Linda; Lakshman, Ramu; Ling, Xiao Shuang; Chin, Sock Teng; Tan, Hiang Khoon
title: Development of an enhanced Acute Care Surgery service in response to the COVID-19 global pandemic: Assessment of clinical patient outcomes and staff psychological well-being
date: 2020-06-25
journal: Injury
DOI: 10.1016/j.injury.2020.06.040
sha: 
doc_id: 310405
cord_uid: 7fah22nu

Background: As the COVID-19 pandemic sweeps across the world, healthcare departments must adapt to meet the challenges of service provision and staff/patient protection. Unlike elective surgery, ACS workloads cannot be artificially reduced providing a unique challenge for administrators to balance healthcare resources between the COVID-19 surge and regular patient admissions. Methods: An enhanced ACS (eACS) model of care is described with the aim of limiting COVID-19 healthcare worker and patient cross-infection as well as providing 24/7 management of emergency general surgical (GS) and trauma patients. The eACS service comprised 5 independent teams covering a rolling 1:5 24-hr call. Attempts to completely separate eACS teams and patients from the elective side were made. The service was compared to the existing ACS service in terms of clinical and efficiency outcomes. Finally, a survey of staff attitudes towards these changes, concerns regarding COVID-19 and psychological well-being was assessed. Results: There were no staff/patient COVID-19 cross-infections. Compared to the ACS service, eACS patients had reduced overall length of stay (2-days), time spent in the Emergency Room (46 minutes) and time from surgery to discharge (2.4-hours). The eACS model of care saved financial resources and bed-days for the organisation. The changes were well received by team-members who also felt that their safety was prioritised. Conclusion: In healthcare systems not overwhelmed by COVID-19, an eACS model may assist in preserving psychological well-being for healthcare staff whilst providing 24/7 care for emergency GS and trauma patients.

The COVID-19 pandemic has provided humanity with enormous healthcare and economic challenges. The epicentre has shifted from China to Europe and the United States with over 3 million people infected and 200,000 deaths. The Singapore government escalated its 'Disease outbreak response system condition (DORCSCON) level to Orange on February 7 instigating containment strategies of isolating infected cases, aggressive contact tracing and widespread testing [1] . Despite mitigation efforts such as border closures, travel restrictions, enforced social distancing and a virtual lockdown on April 7, the number of infected cases in Singapore has risen sharply to over 10,000 (1900/million) primarily via community spread.

It was accepted that an 'all of Government, all of society' strategy was required to combat this crisis. Acute care surgery (ACS) involves managing trauma, emergency general surgery (GS) and critically ill patients. Unlike elective surgery, ACS cases cannot be cancelled during the pandemic and without appropriate strategies, ACS patients will compete for precious hospital resources such as acute ward beds, radiological tests and personal protective equipment (PPE). Furthermore, the safety and well-being of staff already working within this stressful sub-specialty comes into sharp focus [2] .

Singapore General Hospital (SGH) is the leading public healthcare provider in Singapore and our ACS service has been in existence since 2016. This study describes the changes made to enhance our system (eACS) to primarily safeguard against the risk of COVID-19 transmission to staff and patients, efficiently manage hospital resources and provide round the clock care. We also assessed our team-members attitudes towards the changes as well as their psychological well-being during this timeframe. 8 

The ACS 'surgeon of the week' team is staffed by dedicated ACS and sub-specialty surgeons. The team admits all ACS patients during daytime hours from Monday-Friday with minimal conflict from elective surgery, endoscopy or clinics. The patients were admitted to multiple surgical and outlier wards throughout the institution. After-hours and weekend care is provided by a roster of department surgeons with patients handed over to the ACS team in daily morning meetings. Junior staffing consists of associate consultants/fellows, senior/junior residents, non-training medical officers and house officers (interns). Subspecialty patients admitted via the Emergency room (ER) are not part of the ACS workload and are managed separately by sub-specialty teams.

An eACS committee was convened after the first COVID-19 case in Singapore on Jan 23. The eACS team began admitting patients from February 3. The primary aim of the service was to reduce exposure of surgical staff and cross-contamination of patients by COVID-19 via segregation of the department into eACS and elective. Any eACS patient triaged as high risk for COVID-19 required full PPE: N95 respirator, hair and face shield, gown and gloves.

The eACS junior staff managed ER admissions after hours and the elective team managed existing non-eACS patients with minimal interaction. Staff in clinical areas were always expected to don a surgical mask . Social distancing between team members was enforced. 9 The eACS service consisted of 5-teams with a rolling 1:5 24hr call system (Fig.1) . Each team was led by either an ACS surgeon or sub-specialty (Colorectal, Hepato-Biliary, Upper-Gastrointestinal) colleague who contributed to the service in 1-2-week blocks. The subspecialty surgeons were drafted to ensure the eACS team had a full roster to provide 24/7 care. Each team was staffed by residents, medical officers and house officers. Elective surgery and outpatient clinics for these teams was cancelled. Patients discharged from the eACS service were followed up by elective teams at least 2-weeks post-discharge.

Any potential surgical patient was initially reviewed by the ER physicians. If deemed to be a surgical admission, these patients would be admitted to the surgical wards. This was the same in both time-periods. Typically the surgical teams (ACS 2019) would review these patients in the ER or on the wards. For the 2020 eACS model, if the admitted patients were stable they were only reviewed on the ward to limit potential exposure to COVID-19. Unstable patients or trauma activations were reviewed in the ER.

Patients were admitted to a new eACS ward to segregate them from elective patients.

COVID-19 suspected cases were admitted to the Infectious disease (ID) isolation ward.

Separate acute respiratory infection 'ARI' beds were made available in multiple wards to admit surgical patients with fever, respiratory symptoms or signs of pneumonia on CXR or CT scan. In the isolation/ARI wards a combination of full registration of staff visiting and leaving the ward was required as well as donning full PPE: N95 respirator, face and hair shield, gown and gloves.

A new workflow was established for patients who required surgery (Fig.2 ). An e-consent process for suspect COVID-19 cases was established with the department of Anesthesia 10 utilising a downloaded consent form on a Toughbook © placed in a Ziplock airtight bag.

elevators. An operating room (OR) with high efficiency particulate air filter (HEPA) was separated from the main OR block to reduce cross-transmission between staff/patients. All staff were to remain outside of OR during intubation and expected to don N95 respirator, face-shield and eye goggles during surgery. Low risk patients (no recent travel, contact with COVID-19 patient or fever/respiratory symptoms) underwent surgery in the main OR however anesthetic staff-maintained use of N95 respirators for intubation with standard PPE for surgeons. The protocol was tested with an in situ simulation tracking the progress of a COVID-19 positive bleeding ulcer patient with haemorrhagic shock and subsequent PEA arrest.

Stable patients that could undergo endoscopy in the outpatient setting were discharged.

Urgent non-COVID-19 eACS cases were performed in the endoscopy centre with use of PPE including N95 respirator, face-shield, gown and gloves for both upper and lower GI endoscopy based upon recommendations from in-house Gastroenterologists. This has subsequently been endorsed by the American Gastroenterological Association to protect against aerosolization of COVID-19 [3] . Suspect COVID-19 patients or potentially unstable GI bleed patients underwent endoscopy in the established COVID-19 OR with full PPE.

Patients requiring urgent CT scans from the ER were transported regardless of COVID-19 status with appropriate precautions for all staff (N95 respirators). Beyond that patient workflow was determined by ward. Those in COVID-19 isolation/ARI beds were prioritised for daytime scans with protocols in place for transportation, nursing/medical escort, radiology staff PPE and necessary decontamination procedures post scan. Similar to suspect COVID-19 patients requiring OR, the patients' route from ward to CT scan was cleared and subsequently 11 decontaminated by designated cleaning staff. Non-urgent CT scan requests were performed after 2 swab COVID-19 clearance as per ID protocol.

All ACS meetings including journal club, trauma audit, morbidity and mortality and medical student lectures and ward-based tutorials were cancelled as per senior management directives for meetings of 10 or more people.

The study was reviewed and approved by the local Institutional Review Board under waiver of consent as anonymised data was utilised. A retrospective study was performed comparing 

Overall, 1436 patients were admitted during both time periods (ACS 734, eACS 702). Table   1 Figure 3 shows the ward distribution for admitted patients. There was a 29% increase in patients admitted to the surgical wards during eACS (overall 75% vs 58%, P<0.001). Of the eACS patients 14% were admitted to ARI/Isolation wards. Compared to the historical control of 86 minutes, eACS average ward rounds across 5-teams were 35% shorter (56 minutes).

The survey was answered by 90/92 members of the eACS team (98% response rate).

When comparing eACS to ACS, the team members enjoyed working within the new system ( Fig. 4a) . Specifically, the majority felt they were able to maintain rostered junior hours and focus on patient care. They also felt the service provided timely access to scans and surgery for eACS patients.

With regard to COVID-19, there was a clear pattern of concern amongst staff that they were at risk of contracting the disease and passing it onto their family members (Fig. 4b) .

Conversely, there was near universally acceptance that the system provides appropriate protections and allows for segregation of healthcare workers.

The specific questions and answers for burnout/psychological wellbeing are shown in Fig 4c. The vast majority of respondents felt appreciated, that they were positively influencing patients' lives and they were accomplishing worthwhile things at work. Questions pertaining to frustration with work or feeling emotionally drained or fatigued were met with almost universal disagreement.

This study describes the rapid development of an eACS service in response to the COVID-19

outbreak. There were no team-member or patient cross-infections from COVID-19 during the study period. The eACS model resulted in improved efficiency of care, clinical outcomes and reduced costs compared to the previous ACS service. Team morale and satisfaction with the service remained high despite concerns about contracting COVID-19 or passing it on to family members.

After the SARS outbreak of 2003 where 5 healthcare workers lost their lives in Singapore, preparedness models were created for future outbreaks [7] . Senior management dictated a zero tolerance for healthcare worker infection. By separating eACS and elective streams within the department and adapting the service to 5 teams, we prevented its collapse secondary to individual infection or quarantine. A similar approach was utilised by Ngoi et al in managing

Oncology patients by adapting their department into 2 separate teams [8] . Further limitations such as restricted access to ER and inter-team meetings/social gatherings facilitated this result.

Early co-ordination with the ID, ER, OR, porters and cleaning departments were able to protocolise the movement of suspect COVID-19 patients to limit staff exposure. This has been reinforced in recent global surgical guidelines for COVID-19 [9] . Protocols for PPE utilisation were developed to minimise wastage of resources. The use of in situ simulation enabled aspects of team dynamics and protocols to be tested in a safe environment and has been used extensively in surgical settings [10, 11] . We were able to modify workflows in the simulation surrounding blood transfusion requests, patient transportation and time required to setup COVID-19 OR. Furthermore the establishment of a designated leader (OR Anesthetist) to streamline communication between staff members and co-ordinate the logistics of transfer was encouraged with the aim of reducing the time from OR activation until patient arrival to 20 minutes [12] . Ross et al in their multi-tiered response to COVID-19 placed the ACS team front and centre with ACS staff transitioned to ICU whereas emergency GS and trauma cases were handled by suitably trained faculty [13] . In times of overwhelming COVID-19 admissions, it would be an appropriate consideration in Singapore.

ACS models of care have consistently shown improved outcomes including LOS, costs, reduced complications and mortality [14] [15] [16] [17] [18] . Our eACS model reduced LOS further with significant cost savings to the institution in just 2-months. Furthermore, the bed-savings made would assist with preparing wards for the expected COVID-19 surge. The decreased LOS was achieved through multiple pathways:

1. Reduced admission times for surgical patients in the ER will allow for more beds for COVID-19 suspect patients.

2. The dedicated ACS ward (not present in 2019) provided a natural home for admitted patients, with nurses and ancillary medical staff attuned to their needs. The reduced ward round times highlighted the efficiencies that can be achieved.

3. Sequestering suspect COVID-19 patients to ARI/isolation wards expedited care for these patients who were prioritised for swab clearance, CT scans and OR if required. 4 . Rapidly established workflow with radiology and OR/Anesthesia was achieved highlighted by the reductions in time from CT scan to surgery and from surgery to discharge for eACS patients. 5. Our laboratory partners developed a novel COVID-19 test which enabled accelerated clearance of suspect patients within hours. It is a reverse transcription real time polymerase chain reaction (RT-PCR) targeting the E-gene of COVID-19. The assay was developed based upon published protocols [19] .

The overall workload between both time-periods was similar but also consistent for the downward fluctuation that occurs in February because of CNY. Fewer older admissions were noted and likely related to government directives to stay at home. Fewer endoscopy cases related to stable patients being offered outpatient evaluation. Reduction in trauma cases were noted which may be related to a combination of government DORSCON orange status, stay at home mandates and lockdown. The junior manpower of the eACS service was reduced from February to March to reflect the reduction in admissions noted.

The eACS service was well received by the vast majority of the team. The structure of the service leads to 'off-days' during which personal time to de-stress appears to be helping.

Whilst not a complete picture of the mental state of the team, the results are encouraging given that up to 61% of US surgical residents exhibited burnout on at least one of three subscales: emotional exhaustion, depersonalisation and personal accomplishment [20] .

It is clear that concerns for personal safety and the health of loved ones is prevalent amongst the team-members. However, the survey also shows that they felt the system prioritised their safety, which was one of our key goals. This has likely contributed to a positive psychological well-being as assessed in the survey. An appropriate level of PPE is vital and out of the control of most clinicians hence reliance upon the institution and government will always be there. 18 Support systems are imperative for healthcare workers both at home and at the institution level. SGH has multiple links for staff to access psychological support mechanisms in-house.

The World Health Organisation has advocated for de-stigmatising healthcare workers from abuse in the community, encouraging workers to avoid unhelpful coping strategies and remembering that it's a marathon not a sprint [21] .

A limitation of this study is the generalisability of the eACS model. Where consistent attempts to 'flatten the curve' are made, the eACS strategy will assist to limit staff and patient exposure to COVID-19. However, for our heroic colleagues working in healthcare systems decimated by COVID-19, they will have their own unique strategies to deal with ACS cases and we look forward to learning from them. This pandemic is far from over and adaptability of systems will be the key to success. Our strategy will need to be re-examined in future studies beyond COVID-19. 

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Managing COVID-19 in Surgical Systems

AGA Institute Rapid Recommendations for Gastrointestinal Procedures During the COVID-19

Classification of surgical complications: a new proposal with evaluation in a cohort of 6336 patients and results of a survey

Pediatric Residents: Comparing Brief Screening Questions to the Maslach Burnout Inventory

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ACS service from February

Abbrev: ACS; Acute care surgery, ARI; Acute respiratory infection, UGI; Upper gastro-intestinal surgeon, CLR; Colorectal surgeon, HPB; Hepato-biliary surgeon, GS; General surgery, ER; Emergency Room Fig.2 Workflow for eACS patients requiring surgery/endoscopy Abbreviations: GS; General Surgery, ACS; Acute care surgery, ARI; Acute respiratory infection, OR; operating room, PPE

Computed Tomography, MOH; Ministry of Health

The study acknowledges Mr Hong Wei Tan from the Department of Strategy Management and Analytics, SGH for assistance with data collection, analysis and costs calculation.