key: cord-1033491-1rd5a4b6 authors: Cai, Yiying; Kwek, Samuel; Tang, Sarah SL.; Saffari, Seyed Ehsan; Lum, Elaine; Yoon, Sungwon; Ansah, John P.; Matchar, David B.; Kwa, Andrea L.; Ang, Kwok Ann; Thumboo, Julian; Ong, Marcus EH.; Graves, Nicholas title: Impact of the COVID-19 pandemic on a tertiary care public hospital in Singapore: Resources and economic costs date: 2021-12-11 journal: J Hosp Infect DOI: 10.1016/j.jhin.2021.12.007 sha: 4d4ed8cbba75cd26d018108aa8f80fc9cb64d95b doc_id: 1033491 cord_uid: 1rd5a4b6 BACKGROUND: The COVID-19 pandemic has prompted hospitals to respond with stringent measures. Accurate estimates of costs and resources used in outbreaks can guide evaluations of responses. We report the financial expenditure associated with COVID-19, the bed-days used for COVID-19 patients and hospital services displaced due to COVID-19 in a Singapore tertiary hospital. METHODS: We conducted a retrospective cost analysis from January to December 2020 in the largest public hospital in Singapore. Costs were estimated from the hospital perspective. We examined financial expenditures made in direct response to COVID-19; hospital admissions data related to COVID-19 inpatients; and the number of outpatient and emergency department visits, non-emergency surgeries, inpatient days in 2020, compared to preceding years of 2018 and 2019. Bayesian time-series was used to estimate the magnitude of displaced services. RESULTS: USD$41.96 million was incurred in the hospital for COVID-19 related expenses. Facilities setup and capital assets counted for 51.6% of the expenditure; patient-care supplies comprised 35.1%. Out of the 19,611 inpatients tested for COVID-19 in 2020, 727 (3.7%) had COVID-19. The total inpatient- and ICU-days for COVID-19 patients in 2020 were 8,009 and 8 days respectively. A decline in all hospital services were observed from February following a raised disease outbreak alert level; most services quickly resumed when the lockdown was lifted in June. CONCLUSION: COVID-19 has led to increase in healthcare expenses and displacement in hospital services. Our findings are useful for informing economic evaluations of COVID-19 response and provide some information about the expected costs of future outbreaks. The COVID-19 pandemic has prompted hospitals to respond with stringent measures. Accurate estimates of costs and resources used in outbreaks can guide evaluations of responses. We report the financial expenditure associated with COVID-19, the bed-days used for COVID-19 patients and hospital services displaced due to COVID-19 in a Singapore tertiary hospital. We conducted a retrospective cost analysis from January to December 2020 in the largest public hospital in Singapore. Costs were estimated from the hospital perspective. We [1] . Caused by the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2), the infection has spread worldwide within a few months and resulted in a global pandemic [2] . The first documented case of COVID-19 was identified in Singapore on January 23 rd 2020 in a traveller from Wuhan, China [3] . On Table 1 ), indicating the severe nature of COVID-19 and the increased risk of community spread [4] . On April 7 th 2020, the Singapore Government further announced a circuit breaker, which was essentially a lockdown period aimed at minimising movements and interactions to limit the spread of community and dormitory COVID-19 cases that had been increasing since March 2020 [4] . As a result of circuit breaker, all schools and nonessential businesses were closed, social gatherings were prohibited, and residents were requested to stay home. The circuit breaker was progressively lifted from 1 st June 2020, and non-essential services were resumed in phases. The spread of COVID-19 has placed healthcare systems under immense pressure and imposed considerable financial healthcare burden globally and in Singapore [5, 6] . In addition to the direct costs associated with the healthcare resource utilisation in COVID-19 patients, hospitals need to respond with enhanced infection control measures such as screening, testing and personal protective equipment (PPE), incur a reduction in ward capacity, and add resources to emergency department, patient isolation facilities and intensive care units (ICUs) [4, 6, 7] . Moreover, hospitals also defer or cancel elective procedures and J o u r n a l P r e -p r o o f 6 other "non-essential" services, resulting in potential reductions in hospital revenue and impact on patient outcomes [6, 8, 9] . For decision makers to effectively plan for funds and resource allocation in future outbreaks, it is useful to understand the costs and resources used in managing contemporary outbreaks [10] . This is because the management of outbreaks take up scarce healthcare resources which are inevitably diverted from other health programs. There is limited local data available describing the costs and resource utilisation for COVID-19. The aim of this study is to describe the direct expenditures incurred in the prevention or management of COVID-19, number of bed-days used in COVID-19 patients, and changes in hospital services due to COVID-19 in a large tertiary hospital in Singapore. J o u r n a l P r e -p r o o f We conducted a retrospective cost analysis from the hospital's perspective in Singapore General Hospital, which is the largest public hospital in Singapore. The 1,900-bed tertiary acute-care hospital, which provides a comprehensive range of medical services including oncological and haematological services, solid organ transplant, and tertiary burns management, accounted for approximately 15% of all acute-care hospital beds in Singapore in 2019. The hospital has an isolation ward consisting of 35 single rooms and 16 beds in cohort-rooms, with negative pressure infection isolation capabilities. In 2018 and 2019, the hospital had an inpatient occupancy rate of 84.4% and 82.7% respectively. Most of the annual budget is provided by the government through block-based and/or activity-based funding; less than 13% is derived from the admission of private patients [11] . Our study was Table 1 ). This was quickly followed a circuit breaker on April 7 th 2020, where schools and all non-essential services were halted [12] . In response to the DORSCON orange status, several protective measures, which were escalated/deescalated in response to the rapidly evolving epidemiology of the pandemic, J o u r n a l P r e -p r o o f were implemented across the hospital. Mask wearing and twice daily temperature checks were mandated for staff. Staff who developed fever or respiratory symptoms had to visit the staff clinic, where a COVID-19 swab test was performed and a 5-day medical leave was mandated. Local conferences and official overseas trips were cancelled. Staff returning from high-risk countries were placed on a mandatory 14-day quarantine. Vacation leave was cancelled for all staff to allow for rapid deployment for COVID-19 related processes. Inter-hospital movement of patients and healthcare workers was restricted. The number of hospital visitors was restricted. Temperature screening stations and questionnaires were set-up at all hospital entrances to determine the visitors. travel history, contact history and presence of acute respiratory symptoms (ARI). Dedicated "fever areas" were set up at the emergency department, so that high-risk patients presenting with fever, respiratory symptoms, or epidemiologic risk factors were separated from the common waiting areas and tested for COVID-19 using oropharyngeal swabs for SARS-CoV-2 PCR [13] . Strict limitations were placed on outpatient and elective surgery services [14] . For patients requiring repeat medications, the hospital's pharmacy instituted electronic filling of prescriptions with home delivery [15] . Gradual resumption of outpatient and elective surgeries were allowed when the circuit breaker was liftedfrom 1 st June 2020, specialist outpatient visits and medical procedures were first resumed with teleconsultation being the preferred mode of service provision; from 19 th June 2020, screening services and pre-employment check-up were also resumed. The measures taken in the inpatient setting were described by Wee et al [7] . Briefly, patients presenting with ARI and high COVID-19 risk were admitted to isolation wards, while those with ARI and low COVID-19 risk were placed in ARI wards converted from general wards [7] . Oropharyngeal COVID-19 swabs for SARS-CoV-2 PCR were regularly performed for all patients in ARI wards and isolation wards [7] . An infection control bundle, comprising infrastructural enhancements, improved PPE, environmental surveillance, patient surveillance and social distancing was implemented in ARI wards. As part of the pandemic preparedness response, the hospital additionally set up a new isolation facility with 50 isolation single-rooms to ensure that the hospital had reserve capacity to respond to a full-blown community outbreak. COVID-19 testing services and medical services were extended by the hospital to external facilities [16] . This included eight dormitories where the COVID-19 outbreak were predominantly occurring, two swab isolation facilities, and one community care facility (CCF) housing low-risk COVID-19 patients. In the CCF, healthcare staff provided round-the-clock essential primary care and medical consultation. Pharmacists stocked key essential medications, packaged, and dispensed them remotely [16] . Direct expenditure associated with the management or prevention of COVID-19 from January 2020 to December 2020, including costs expended for the support of community COVID-19 operations, was obtained from the hospital's finance department. These costs were classified as: capital assets and facilities setup for the prevention or management of COVID-19, labour-related costs, patient-care-related materials and supplies, and non-patient-J o u r n a l P r e -p r o o f care materials, related to the prevention or management of COVID-19, and costs associated with services for external facilities. All costs were presented in 2020 US dollars (USD) (1 Singapore dollar = 1.354 USD). Time losses in existing healthcare staff or time spent by existing healthcare staff redeployed for COVID-19 related processes and overhead costs were not considered as these were deemed to be sunk costs. Lost revenue due to deferment of services was also not included as it was not deemed to be direct expenditure. Data on patients hospitalised with COVID-19 from January to December 2020 were identified from the hospital's electronic database. Data collected were length of inpatient stay and length of stay in the ICU, number of COVID-19 tests done and discharge status. To describe changes in hospital services due to COVID-19, weekly data pertaining to number of outpatient visits, non-emergency surgeries, inpatient days, and emergency department visits for 2020 and the preceding years of 2018 and 2019 were extracted from the hospital's database. All statistical analyses were performed in R software (R Core Team (2020). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. URL https://www.R-project.org/). We employed descriptive statistics to summarise the hospitalisation characteristics and costs. Frequency and percentages were reported for categorical variables. Mean (95% CIs) or median (first quartilethird quartile) were reported for continuous variables. Changes in hospital services associated with COVID-19 were explored by reporting the average weekly numbers along with 95% CIs in a Bayesian time series model [17] . Four time-periods were considered in the time series, as shown in analyses were conducted using the "bsts" and "CausalImpact" packages [17] . The "CausalImpact" package provides an estimate of the absolute and relative effect of an intervention in a targeted time series by analysing the difference between a forecasted counterfactual model and the actual model [17] . A two-sided p-value of 0.05 was significant. J o u r n a l P r e -p r o o f The response to the pandemic incurred USD$45.39 million cash expenditures with USD$3.43 million (7.6%) for services rendered to support community COVID-19 operations and USD$41.96 million (92.4%) for hospital-based services. Table 1 Figure 2 , and a summary of the relative effects shown in Table 2 . In the circuit breaker period, the greatest reduction was observed for non-emergency surgeries (45%, p<0.001) and outpatient visits (36%, p<0.001); inpatient days was reduced by 11% (p<0.001). Most services resumed in the post-circuit breaker period, except for emergency department visits, which remained significantly lower (13%, p<0.001) compared to the pre-COVID-19 period. When the entire COVID-19 period was collectively compared to the pre-COVID-19 period, no significant reduction was observed in inpatient days (1%, p=0.206). Non-emergency surgeries (p<0.001) and outpatient visits (p<0.001) services were both reduced by 13% when the entire COVID-19 period was compared to the pre-COVID-19 period. Cost studies in healthcare are useful to inform decisions for efficient allocation of healthcare resources. In this study, we reported the cash expenditures, bed-days used for COVID -19 patients and changes in healthcare services due to the COVID-19 pandemic in a tertiary hospital in Singapore. We found that a small number of COVID-19 patients were admitted to the hospital in 2020, accounting for only 0.7% of all inpatient bed-days. However, the actual expenditure incurred by the hospital was substantial, mainly due to costs in facilities setup, capital assets and medical supplies for prevention or management of COVID-19. While we did not tabulate the actual costs associated with lost opportunities due to missed revenue, we observed significant reduction in volumes in all hospital services during the circuit breaker period compared to the pre-COVID-19 period. In 2003, Singapore was one of the countries most affected by the severe acute respiratory syndrome (SARS) outbreak [18] . The experience has led local hospitals to adopt a prudent approach in dealing with the COVID-19 pandemic in 2020 [19] . However, the stringent infection prevention measures translated to high expenditures incurred by the hospital. Notably, facilities setup for infection prevention and purchase of capital assets in response to the pandemic accounted for more than half of the COVID-19 related expenditure. Interestingly, labour-related costs incurred by the hospital were modest. This is likely attributed to the fact that opportunity costs associated with lost clinical time due to redeployment of staff for COVID-19 related processes were not included in our tabulation of direct hospital expenditure. In the two months before circuit breaker was announced, clinical and non-clinical hospital staff were trained to manage fever screening areas and had conducted full-scale simulations as part of the hospital's Preparedness and Response plan, Upon circuit breaker announcement, existing hospital staff were quickly redeployed to manage COVID-19 related processes, and were also separated into multiple teams to allow for longer shift hours and to ensure business continuity should any staff be quarantined due to COVID-19 [13, 20, 21] . Despite being the largest Singapore tertiary acute care hospital with 15% of all Singapore inpatient beds in 2019, only 727 (1.2%) out of 58,599 COVID-19 patients in Singapore in 2020 were admitted to our study hospital. There are two reasons for small number of COVID-19 patients in our hospital: firstly, large-scale dedicated isolation units termed CCFs have been set up to house low-risk COVID-19 patients to prevent the nation's healthcare infrastructure from becoming overwhelmed [16] . Secondly, patients who presented at primary care clinics fulfilling criteria for COVID-19 and requiring hospitalisation were predominantly sent to the National Centre for Infectious Diseases, which is a 330-bedded high-level isolation hospital purpose built for infectious diseases and outbreak management. Out of the 727 patients that were admitted, only three were admitted to the ICU during stay. This is likely because almost 95% of the infected patients in Singapore in 2020 comprised on migrant workers in the 20s or 30s with little or no comorbidities, in which the likelihood of severe disease is markedly lower compared to elderly individuals or those with comorbidities [22] . Previous studies have estimated that the direct medical cost of a COVID-19 patient to range from USD$3,000 to USD$12,000 per patient in USA [5, 23] . While we did not estimate the average direct medical costs of each COVID-19 patient, we observed that the expenditure for medical supplies and pharmaceutical products in COVID-19 prevention or management was almost USD$15 million despite the small number of COVID-19 patients. We found that this is because all patients presenting with acute respiratory disease, including those without travel history or prior known contact with COVID-19 patients, were considered to be at risk of having COVID-19. Hence, dedicated wards, termed ARI wards, were set up to segregate these patients from the rest of the hospital. In these ARI wards, extensive infection control measures, including infrastructural enhancement and social distancing, risk stratified PPE use, enhanced cleaning and sanitation, and regular testing for COVID-19 infection was instituted, which contributed to the COVID-19 related medical supplies expenditure incurred by the hospital [7].We consider our costs estimates to be conservative as we did not include costs that were not a direct part of the infection control measures. For instance, costs associated with the implementation of services to provide alternative methods of care, such as remote counselling and teleconsultation clinics during the circuit breaker phase were excluded from our cost estimates. Previous studies have suggested that the monetary losses of clinical and surgical revenues due to reduction in hospital services are likely to eclipse the direct financial expenditures in an outbreak [6, 10, 24] . Mulholland et al described overall sharp drops in emergency department, inpatient admissions, and surgical admissions in Scotland hospitals following the WHO COVID-19 pandemic announcement and the consequent United Kingdom lockdown [8] . In our study, we similarly observed reductions in all hospital services following the declaration of the DORSCON orange status and subsequent circuit breaker. Notably, approximately one-third of all outpatient services and almost half of non-emergency surgeries were cancelled during the circuit breaker period, which may result in lost clinical revenue. However, this loss is likely to be low considering that most of hospital's revenue is derived from annual block funding from the government, which is not directly affected by patient volume [11] . Most services rallied after the circuit breaker was lifted likely due to pent-up demand; hence, the onset of COVID-19 in 2020 resulted in approximately only 10% reduction in services compared to the pre-COVID-19 period. Despite so, it should be noted that to allow business continuity during the COVID-19 pandemic, hospitals can incur higher J o u r n a l P r e -p r o o f costs in service provision due to the need for additional infection prevention measures such as increased COVID-19 testing, more stringent use of PPEs, and reduced visits for social distancing [14] . Our study has limitations. We did not quantify the costs associated with lost revenue due to the lack of data informing the clinical revenue associated with each service. However, we postulated that this loss in revenue is likely to be modest considering the minimal reduction in overall service provision by the hospital in 2020 and the funding mechanism of the hospital. Another limitation is that our findings may be less generalisable for other healthcare systems in other countries with different policy responses against COVID-19, or for healthcare systems with different payment structures. Nevertheless, we believe that our findings are valuable in informing local healthcare administrators and decision makers in subsequent responses in future pandemics. Our study also did not consider the wider socioeconomic impact of COVID-19, including its impact on healthcare workers' well-being and productivity. In a survey by Tan et al, it was reported that burnout and disengagement was observed in three-quarters of surveyed healthcare workers during the COVID-19 pandemic [25] . The efficacy and cost-effectiveness of methods to support the mental well-being of healthcare workers, such as mobile health apps, may be of interest in future studies [26] . Finally, continued analysis of the hospital costs will be warranted, as cost structures will change when hospitals evolve from the traditional face-to-face patient-physician care model to novel models of remote consultations, such as the use of artificial intelligence or machine learning for automated clinical diagnosis and home-based monitoring [27] . In our study, we found that the prevention and management of the COVID-19 pandemic is associated with high financial expenditure to Singapore hospitals. While healthcare services were disrupted during lockdown, these services quickly rallied after the lockdown was lifted. Given that we are still in the midst of the COVID-19 pandemic, it is uncertain how subsequent waves of infection or changes in vaccination rates may impact hospital responses and costs. Understanding the key costs in the response to the COVID-19 pandemic can enable us to make better informed decisions as we prepare to respond to future epidemics. 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We also thanked Professor Kenneth Kwek, Chief Executive Officer of Singapore General Hospital, as well as the SingHealth Duke-NUS AMII Impact Assessment Unit for their support in this study.J o u r n a l P r e -p r o o f