Interrupting transmission of COVID-19- lessons from containment efforts in Singapore
Published study (Lee et al., 22 March 2020)
Interrupting transmission of COVID-19: lessons from containment efforts in Singapore 1,2 1 1 Vernon J Lee, PhD , Calvin J Chiew, MPH , Wei Xin Khong, PhD 1Ministry of Health, Singapore 2Saw Swee Hock School of Public Health, Singapore Corresponding author: Vernon J Lee, Communicable Diseases Division, Ministry of Health, Downloaded from https://academic.oup.com/jtm/advance-article-abstract/doi/10.1093/jtm/taaa039/5804843 by guest on 22 March 2020 Singapore, 12 College Road, Singapore 169852, Email: [email protected] Highlight Despite multiple importations resulting in local chains of transmission, Singapore has been able to control the COVID-19 outbreak without major disruption to daily living. In this article, we describe the combination of measures taken by Singapore to contain COVID-19 and share some early lessons learnt from the experience. Keywords: COVID-19; outbreak; Singapore; coronavirus; mitigation; importation; Introduction As of Mar 9, 2020, more than 100,000 COVID-19 cases and 3,800 deaths have been reported 1 globally, including over 28,000 cases and 600 deaths in 100 countries or regions outside China. Countries are now facing emerging outbreaks that threaten to develop into local epidemics if not well contained. China, which had initiated the largest community containment effort in history, has been successful at containing the outbreak, and since mid-February the daily number of new COVID- 19 cases has been declining in China.2 In the Republic of Korea (ROK) with one of the highest number of infections outside China, the outbreak also appears to have stabilized after application of rigorous measures such as strict contact tracing and large-scale quarantine. Singapore, a city-state and global travel hub in Southeast Asia, was one of the first countries to be affected by COVID-19, and for a while was the country with the highest COVID-19 numbers outside of China from Feb 5, 2020 to Feb 18, 2020. This was in part due to Singapore’s strategy of using a comprehensive surveillance system to detect as many cases as possible, and to contain them at the individual level. Despite early importations resulting in local chains of transmission, the rise in the number of cases has been steady without the exponential growth observed elsewhere. This suggests that this strategy, coupled with community-based measures proportionate to the transmission risk, has been effective in containing spread, and could be considered in countries in the early stages of the outbreak where it is not possible to mount massive community-wide containment efforts. Singapore’s approach Singapore was one of the worst affected areas in the 2003 SARS outbreak, and since then Singapore has steadily built up its outbreak preparedness, including developing a national pandemic preparedness plan based on risk assessment and calibration of response measures that are proportionate to the risk. This includes holding regular exercises, and building the National Centre for Infectious Diseases (NCID), a 330-bed purpose built infectious diseases management facility with integrated clinical, laboratory and epidemiologic functions.
One of the lessons learnt from SARS is that clear leadership and direction is critical to ensure coordinated response across all sectors. Therefore, a Multi-Ministry Task Force was set up before Singapore had its first COVID-19 case to provide central coordination for a Whole-of-Government handling of the crisis. Surveillance and containment measures Singapore’s surveillance for COVID-19 aimed to identify as many cases as possible using complementary detection methods. First, a case definition to identify suspect cases, at healthcare Downloaded from https://academic.oup.com/jtm/advance-article-abstract/doi/10.1093/jtm/taaa039/5804843 by guest on 22 March 2020 facilities or through contact tracing, was established based on clinical and epidemiological criteria, and evolved over time as more information became available. To identify cases in the community that do not fulfill the case definition, an enhanced surveillance system was set up to detect COVID- 19 among all cases of pneumonia in hospital and primary care, severely-ill patients in hospital intensive care units and deaths with possible infectious cause, and influenza-like illness (ILI) in sentinel primary care clinics. Finally, doctors were also allowed to test patients whom they viewed with suspicion for clinical or epidemiological reasons. To support the surveillance system, SARS-CoV- 2 RT-PCR laboratory testing capacity was scaled up rapidly to all public hospitals in Singapore, and is able to handle 2,200 tests a day for a population of 5.7m. Similarly, ROK has also quickly expanded testing capacities, including setting up drive-through testing stations, and has conducted over 200,000 tests to date.3 All suspected and confirmed cases were immediately isolated in hospital to prevent onward transmission. Contact tracing was also initiated to determine their movement history 14 days prior to symptom onset to isolation to determine possible sources of infection and also to prevent onward transmission among close contacts. Any contact with current or recent symptoms after exposure to the case was referred to hospitals for isolation and testing as part of active case finding. Close contacts who were well were placed under mandatory quarantine for 14 days from their last date of exposure, while other lower-risk contacts were put on phone surveillance. As of Mar 10, 2020, over 4000 close contacts had been placed under quarantine, and 8 cases developed symptoms while under quarantine and tested positive. To facilitate compliance and reduce hardship, the Quarantine Order Allowance Scheme provides economic assistance. At the same time, the Infectious Diseases Act provides legal power to enforce contact tracing and quarantine, and to prosecute those who do not comply. Healthcare measures A network of more than 800 Public Health Preparedness Clinics (PHPCs) was activated to enhance management of respiratory infections in the primary care setting, with subsidies extended to Singapore residents to incentivize them to seek care at these PHPCs. As early COVID-19 disease is mild and undifferentiated, medical practitioners were instructed to provide extended medical leave of up to five days for patients with respiratory symptoms. This allowed possible COVID-19 cases to self-isolate at home to reduce the number of undetected cases seeding community transmission. Those with persistent or worsening symptoms are advised to return to the same doctor for evaluation and referral for testing. At the hospitals, infection control measures were strengthened, including strict visitor controls, cohorting of patients with pneumonia or respiratory infection, and maintenance of strict infection control practices across all settings with personal protective equipment levels appropriate for the
patient care setting. Movement of patients and doctors between healthcare institutions was also limited to prevent multiple institutions from being affected at the same time. Border control measures Apart from detecting cases and containing spread, prevention of imported cases is important to reduce the force of infection from external sources. In Singapore, temperature and health screening of incoming travelers from Wuhan since Jan 3, 2020, and extended to all travellers since Jan 29, 2020, is in place at all ports of entry. Travelers who meet the suspect case definition are conveyed Downloaded from https://academic.oup.com/jtm/advance-article-abstract/doi/10.1093/jtm/taaa039/5804843 by guest on 22 March 2020 directly to hospital. Singapore has, as of Mar 4, 2020, advised Singaporeans to defer non-essential travel to mainland China, Republic of Korea (ROK), Northern Italy and Iran and imposed entry restrictions on visitors from the same areas. Returning residents and long-term pass holders with travel history to these affected regions are subject to a 14-day quarantine. Community and social measures The community-level approach in Singapore was focused on social responsibility while life continued as usual with precautions. Public education is a key strategy to empower the public, and is done through traditional print and broadcast media, as well as social media. This includes messages on regular handwashing and seeking medical treatment early and staying at home when unwell. The use of masks was only encouraged for ill persons to prevent them from infecting others, and the government distributed four masks to every household. Detailed anonymised information on COVID- 19 cases is shared publicly to prevent speculation, while misinformation is quickly debunked and clarified on a government website. In the workplace, employees are encouraged to monitor their temperature and health regularly, and institutions to step up their business continuity plans, including allowing employees to telecommute where possible and having segregated teams. Advisories to avoid large-scale events of more than 1,000 people are in place, while ongoing events are advised to take precautions such as health screening and turning away ill individuals. Schools have remained open, and have implemented precautionary measures such as reduction of mass assemblies, inter-class and inter-school activities, and staggered meal times. Mass fever screening through thermal temperature scanners is widely instituted at entry to public buildings, such as offices, hotels, community centres and places of worship. Although these precautions are implemented, relative normalcy of day-to-day life has been maintained in Singapore. Notably, Singapore has not implemented school closures or other major social distancing measures, as there is no evidence of widespread community transmission, and rates of COVID-19 infection among children remain low.4 School closures and social distancing have been performed in China and Hong Kong, where containment is also successful. However, Singapore’s experience suggests it is possible to avoid major social disruptions and contain the spread of COVID-19, as a sustainable approach over the long term. Success and Challenges With the combination of measures, Singapore has been able to interrupt transmission to contain the outbreak. The majority of cases were detected through application of the case definition at the point of medical consult or through contact tracing.5 Statistical modeling of the effective reproduction
number has shown it to be consistently below 1, suggesting that containment efforts are successful (Pung et al, unpublished data). However, several challenges lie ahead. Firstly, the longer the outbreak persists, the more chains of community transmission and missed cases are present, and the more difficult it will be to link cases and contain spread. Contact tracing and quarantine are resource-intensive activities and may not be sustainable in the long run. Secondly, some individuals who continue to work or attend social functions while symptomatic are driving disease spread, leading to substantial community Downloaded from https://academic.oup.com/jtm/advance-article-abstract/doi/10.1093/jtm/taaa039/5804843 by guest on 22 March 2020 transmission. Thirdly, with global spread, the force of infection from imported cases will be substantial, leading to new waves of infection. As Singapore is a travel hub with high reliance on trade, sustained border control measures may not be practical with global disease spread, and it may not be feasible to completely shut a country’s borders for a prolonged duration. These factors may result in a rise in cases, and additional measures will be required to achieve a balance between containing disease spread and reducing the overall health and socioeconomic impact due to community transmission. Conclusion Early detection of cases through surveillance and aggressive contact tracing around known cases has helped to contain spread of the outbreak in Singapore. Together with other healthcare, border and community measures, they allow the COVID-19 outbreak to be managed without major disruption to daily living. Countries could consider these measures for a proportionate response to the risk of COVID-19. Author contributions: All authors contributed equally to the literature review, data collection and writing of the manuscript. Declaration of interests: We declare no competing interests. References 1. World Health Organization. Coronavirus disease (COVID-2019) situation report 49 (10 Mar 2020). https://www.who.int/docs/default-source/coronaviruse/situation-reports/20200309-sitrep-49- covid-19.pdf (11 March, 2020, date last accessed). 2. Wilder-Smith A, Chiew CJ, Lee VJ. Can we contain the COVID-19 outbreak with the same measures as far SARS? Lancet Infect Dis 2020. https://doi.org/10.1016/S1473-3099(20)30129-8. 3. Our World in Data. How many tests for COVID-19 are being performed around the world? http://www.ourworldindata.org/covid-testing-10-march (11 March, 2020, date last accessed). 4. Novel Coronavirus Pneumonia Emergency Response Epidemiology Team. The epidemiological characteristics of an outbreak of 2019 novel coronavirus diseases (COVID-19) in China. Zhonghua Liu Xing Bing Xue Za Zhi 2020; 41(2):145-151. 5. Ng Y, Li Z, Chua YX et al. Evaluation of the effectiveness of surveillance and response measures for the first 100 patients with COVID-19 in Singapore. MMWR Morb Mortal Wkly Rep 2020 (in press). 6. World Health Organization. Coronavirus disease (COVID-19) technical guidance: Surveillance and case definitions. https://www.who.int/emergencies/diseases/novel-coronavirus-2019/technical- guidance/surveillance-and-case-definitions (11 March, 2020, date last accessed).
7. Public Health England. COVID-19: guidance for primary care. www.gov.uk/government/publications/wn-cov-guidance-for-primary-care (11 March, 2020, date last accessed). 8. Department of Health, Government of Australia. Letter to doctors from the Chief Medical Officer about the response to COVID-19. http://health.gov.au.news/letter-to-doctors-from-the-chief- medical-officer-about-the-response-to-covid-19 (11 March, 2020, date last accessed). 9. Centers for Disease Control and Prevention, United States. Interim infection prevention and control recommendations for patients with suspected or confirmed coronavirus disease 2019 (COVID-19) in healthcare settings. http://www.cdc.gov/coronavirus/2019-ncov/infection- Downloaded from https://academic.oup.com/jtm/advance-article-abstract/doi/10.1093/jtm/taaa039/5804843 by guest on 22 March 2020 control/control-recommendatios.html (11 March, 2020, date last accessed). 10. Centre for Health Protection, Department of Health, Hong Kong SAR. Emergency preparedness and response for COVID-19 – focusing on business continuity arrangement. https://chp.gov.hk/files/pdf/formulating_business_continuity_plan.pdf (11 March, 2020, date last accessed). 11. United States Department of Labor. Guidance on preparing workplace for COVID-19. https://www.osha.gov/Publications/OSHA2990.pdf (11 March, 2020, date last accessed). Table: Summary of measures taken for COVID-19 in Singapore and other countries (as of Mar 10, 2020) Measure Singapore Other Countries (selected) Surveillance and containment measures Case detection Case definition was established based on Affected countries instituted various case clinical and epidemiological criteria, and finding activities using WHO’s case definition 6 continuously updated as the COVID-19 or a modified version. Malaysia, Republic of situation evolved. Surveillance was Korea (ROK) and the United Kingdom enhanced to test COVID-19 in all incorporated COVID-19 testing for severe pneumonia patients, ICU patients and acute respiratory illness (SARI) and ILI deaths from possible infectious cause, and surveillances. In Japan, Republic of Korea influenza-like illness (ILI) in sentinel (ROK) and the United States (US), doctors primary care sites. Doctors were also were allowed to test patients at their allowed to test patients whom they discretion. viewed with suspicion for clinical or epidemiological reasons. Quarantine & Symptomatic contacts were referred to Mandatory quarantine was required by law phone hospital. Asymptomatic close contacts in several countries/regions, including surveillance were placed under compulsory quarantine Brunei, Hong Kong, Israel, mainland China for 14 days, while lower-risk contacts were and ROK. put on phone surveillance. Laboratory PCR testing for COVID-19 is available at all In Japan and the United States (US), COVID- testing public hospital laboratories to increase 19 testing was extended to non-public national diagnostic capacity, and other health laboratories. Serological testing using healthcare institutions can send samples IgM and IgG antibodies was described in for testing at these facilities. Serological mainland China. tests were used to investigate linkages between cases and clusters. Healthcare measures Clinical Medical practitioners were instructed to In UK, primary care practitioners were management in provide extended medical leave of up to advised to avoid face-to-face assessment of primary care five days for patients with respiratory suspected cases. Instead, patients should be symptoms, and to refer them for further immediately isolated and referred to the testing if they do not recover. Patients local health authorities via a hotline.7 were advised to return to the same doctor General practitioners in Australia were if symptoms persist. similarly advised to refer patients to dedicated health services, undertake remote telemedicine consultation or make safe arrangements to assess possible COVID-19
8 patients. Infection Infection control measures were Infection control measures recommended prevention and strengthened at healthcare institutions, by the US Centers for Disease Control to control including strict visitor controls, cohorting healthcare institutes included limiting points of patients with pneumonia or respiratory of entry to facilities, prioritizing triage of infection, and maintenance of strict patients with respiratory symptoms, infection control practices across all exploring alternatives to face-to-face triage, settings. Inter-institution movement of limiting visitor access and movement within patients and doctors was limited. facility, and managing exposed healthcare Downloaded from https://academic.oup.com/jtm/advance-article-abstract/doi/10.1093/jtm/taaa039/5804843 by guest on 22 March 2020 9 workers . Healthcare Over 800 Public Health Preparedness Australia and China set up “fever clinics” to services Clinics (PHPCs) were activated to enhance assess large volume of people for COVID-19 management of respiratory infections in while minimizing risk of transmission to the primary care setting, with subsidies other patients. extended to Singapore residents. Designated Majority of cases were isolated and While most countries managed their cases in hospital treated at the National Centre for existing hospitals, China established at least Infectious Diseases (NCID), a 330-bed 14 temporary medical facilities designated purpose built infectious diseases to treat COVID-19 patients. Two new management facility. hospitals with at least 1,000 beds each were also built in Wuhan city. Border control measures Temperature Temperature and health screening for Countries including China are conducting screening inbound travelers is being conducted at all temperature screening of incoming land, air, and sea checkpoints. passengers at air, land and sea checkpoints. Travel advisories Singaporeans are advised to defer non- At least 45 countries or regions issued & border essential travel to mainland China, ROK, partial or complete travel bans on mainland restrictions Northern Italy and Iran, and entry China, Iran, Italy, ROK or other countries. restrictions are imposed on visitors from these regions. Returning residents with travel history to these areas are subject to a 14-day quarantine. Community and social measures Schools Schools have remained open, but Country/region-wide school closures were implemented precautionary measures announced in Albania, Bulgaria, Iran, Iraq, such as reduction of mass assemblies, Italy, Japan, mainland China, Hong Kong, inter-class and inter-school activities, and Saudi Arabia, Spain and ROK. staggered meal times. Workplaces Employees are encouraged to monitor Hong Kong’s Centre for Health Protection their temperature and health regularly, encouraged companies to develop and institutions are encouraged to step up comprehensive policies that include their business continuity plans, such as business continuity and operational plans to 10 telecommuting where possible and having maintain core services . In US, employers segregated teams. were recommended to develop contingency plans for situations that may arise during 11 outbreaks . Public Public education was done through Most countries delivered public-service communications traditional print and broadcast media, as announcements promoting social well as social media. Public are advised to responsibility and set up telephone hotlines practise social responsibility while life for public enquiries. In mainland China, continues as usual with precautions. several provinces mandated mask wearing in Misinformation is debunked and clarified public spaces. on a government website. Lockdown of No areas have been locked down to date. Massive lockdowns were reported in affected areas mainland China, Palestine, Saudi Arabia, and Italy. Smaller scale lockdowns were reported
in ROK, Cyprus and Vietnam. Downloaded from https://academic.oup.com/jtm/advance-article-abstract/doi/10.1093/jtm/taaa039/5804843 by guest on 22 March 2020