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      SARS-CoV-2 seroprevalence in COVID-19 hotspots

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      The Lancet
      Elsevier BV

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          Abstract

          Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has surprised the world with its range of disease manifestations, from asymptomatic infection to critical illness leading to hospital admission and death.1, 2 Due to the high proportion of asymptomatic or mild infections (approximately 80%), data restricted to laboratory-confirmed cases do not capture the true extent of the spread or burden of the virus, or its infection-fatality ratio. 2 Therefore, serological detection of specific antibodies against SARS-CoV-2 can better estimate the true number of infections. Due to co-circulation of other human coronaviruses, serology for SARS-CoV-2 is not trivial. Antibody cross-reactivity with other human coronaviruses has been largely overcome by using selected viral antigens, and several commercial assays are now available for SARS-CoV-2 serology. However, despite high sensitivity and specificity, a setting with a low pretest probability, such as current population-based seroprevalence studies, warrants careful validation of results. 3 Extensive previous assay validation in well characterised serum samples and confirmation of positive results are thus necessary to prevent false-positive findings from confounding seroprevalence rates. The first SARS-CoV-2 seroprevalence studies from cohorts representing the general population have become available from COVID-19 hotspots such as China, the USA, Switzerland, and Spain.4, 5, 6, 7, 8 In The Lancet, Marina Pollán and colleagues 6 and Silvia Stringhini and colleagues 7 separately report representative population-based seroprevalence data from Spain and Switzerland collected from April to early May this year. Studies were done in both the severely affected urban area of Geneva, Switzerland, and the whole of Spain, capturing both strongly and less affected provinces. Both studies recruited randomly selected participants but excluded institutionalised populations (ie, permanent residents of institutions such as prisons or care homes, as well as hospitalised residents), which is a clear limitation. They relied on IgG as a marker for previous exposure, which was detected by two assays for confirmation of positive results. The Spanish study, 6 which included more than 60 000 participants, showed a nationwide seroprevalence of 5·0% (95% CI 4·7–5·4; specificity–sensitivity range of 3·7% [both tests positive] to 6·2% [at least one test positive]), with urban areas around Madrid exceeding 10% (eg, seroprevalence by immunoassay in Cuenca of 13·6% [95% CI 10·2–17·8]). These differences in seroprevalence are also reflected in laboratory-confirmed COVID-19 cases, which were much higher in urban areas than in rural areas. Similar numbers were obtained across the 2766 participants in the Swiss study, 7 with seroprevalence data from Geneva reaching 10·8% (8·2–13·9) in early May. The rather low seroprevalence in COVID-19 hotspots in both studies is in line with data from Wuhan, the epicentre and presumed origin of the SARS-CoV-2 pandemic. Surprisingly, the study done in Wuhan approximately 4–8 weeks after the peak of infection reported a low seroprevalence of 3·8% (2·6–5·4) even in highly exposed health-care workers, despite an overwhelmed health-care system. 4 None of the studies reported sex differences, and both the studies from Geneva and Spain reported lower seroprevalence in children than in adults.6, 7 Whether this reflects a lower susceptibility of children to infection in general, or rather that the studies were undertaken while schools and day-care centres were closed, remains to be elucidated. The key finding from these representative cohorts is that most of the population appears to have remained unexposed to SARS-CoV-2, even in areas with widespread virus circulation. These findings are further supported by the observation that even countries without strict lockdown measures have reported similarly low seroprevalence—eg, Sweden, which reported a prevalence of 7·3% at the end of April—leaving them far from reaching natural herd immunity in the population. 9 Such seroprevalence studies provide information only about previous exposure, rather than immunity, as no neutralising antibodies are measured. Since no correlate of protection for SARS-CoV-2 has been formally defined, we do not know what titre of neutralising antibodies would protect recovered patients from secondary infection or if non-neutralising antibodies could also contribute to protection. By analogy to common-cold coronaviruses, immunity after SARS-CoV-2 infection is thought to be incomplete and temporary, lasting only several months to a few years.10, 11 A subset of asymptomatic SARS-CoV-2 cases shows a lower antibody response and titres that wane quickly. 12 It is unknown whether these patients are protected by other immune functions, such as cellular immunity. In summary, such individuals would not be detected by serological assays but might confound the true exposure rate. In light of these findings, any proposed approach to achieve herd immunity through natural infection is not only highly unethical, but also unachievable. With a large majority of the population being infection naive, virus circulation can quickly return to early pandemic dimensions in a second wave once measures are lifted. In addition, the geographical variability and the dynamic of weekly increasing seroprevalence rates during the early phase of the pandemic highlight that these studies are only snapshots in time and space, and reflect the circumstances of the period in which they were done. As we are still in the midst of an unprecedented global health crisis, such seroprevalence data will continue to be necessary for public health authorities to estimate exposure rates, especially in areas with little testing capacity for acute cases. If and when a vaccine is widely available, ongoing seroprevalence studies will be able to provide information about the extent and duration of vaccine-induced herd immunity. © 2020 David Benito/Getty Images 2020 Since January 2020 Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect, the company's public news and information website. Elsevier hereby grants permission to make all its COVID-19-related research that is available on the COVID-19 resource centre - including this research content - immediately available in PubMed Central and other publicly funded repositories, such as the WHO COVID database with rights for unrestricted research re-use and analyses in any form or by any means with acknowledgement of the original source. These permissions are granted for free by Elsevier for as long as the COVID-19 resource centre remains active.

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          Most cited references9

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          Characteristics of and Important Lessons From the Coronavirus Disease 2019 (COVID-19) Outbreak in China: Summary of a Report of 72 314 Cases From the Chinese Center for Disease Control and Prevention

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            Clinical and immunological assessment of asymptomatic SARS-CoV-2 infections

            The clinical features and immune responses of asymptomatic individuals infected with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have not been well described. We studied 37 asymptomatic individuals in the Wanzhou District who were diagnosed with RT-PCR-confirmed SARS-CoV-2 infections but without any relevant clinical symptoms in the preceding 14 d and during hospitalization. Asymptomatic individuals were admitted to the government-designated Wanzhou People's Hospital for centralized isolation in accordance with policy1. The median duration of viral shedding in the asymptomatic group was 19 d (interquartile range (IQR), 15-26 d). The asymptomatic group had a significantly longer duration of viral shedding than the symptomatic group (log-rank P = 0.028). The virus-specific IgG levels in the asymptomatic group (median S/CO, 3.4; IQR, 1.6-10.7) were significantly lower (P = 0.005) relative to the symptomatic group (median S/CO, 20.5; IQR, 5.8-38.2) in the acute phase. Of asymptomatic individuals, 93.3% (28/30) and 81.1% (30/37) had reduction in IgG and neutralizing antibody levels, respectively, during the early convalescent phase, as compared to 96.8% (30/31) and 62.2% (23/37) of symptomatic patients. Forty percent of asymptomatic individuals became seronegative and 12.9% of the symptomatic group became negative for IgG in the early convalescent phase. In addition, asymptomatic individuals exhibited lower levels of 18 pro- and anti-inflammatory cytokines. These data suggest that asymptomatic individuals had a weaker immune response to SARS-CoV-2 infection. The reduction in IgG and neutralizing antibody levels in the early convalescent phase might have implications for immunity strategy and serological surveys.
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              Prevalence of SARS-CoV-2 in Spain (ENE-COVID): a nationwide, population-based seroepidemiological study

              Summary Background Spain is one of the European countries most affected by the COVID-19 pandemic. Serological surveys are a valuable tool to assess the extent of the epidemic, given the existence of asymptomatic cases and little access to diagnostic tests. This nationwide population-based study aims to estimate the seroprevalence of SARS-CoV-2 infection in Spain at national and regional level. Methods 35 883 households were selected from municipal rolls using two-stage random sampling stratified by province and municipality size, with all residents invited to participate. From April 27 to May 11, 2020, 61 075 participants (75·1% of all contacted individuals within selected households) answered a questionnaire on history of symptoms compatible with COVID-19 and risk factors, received a point-of-care antibody test, and, if agreed, donated a blood sample for additional testing with a chemiluminescent microparticle immunoassay. Prevalences of IgG antibodies were adjusted using sampling weights and post-stratification to allow for differences in non-response rates based on age group, sex, and census-tract income. Using results for both tests, we calculated a seroprevalence range maximising either specificity (positive for both tests) or sensitivity (positive for either test). Findings Seroprevalence was 5·0% (95% CI 4·7–5·4) by the point-of-care test and 4·6% (4·3–5·0) by immunoassay, with a specificity–sensitivity range of 3·7% (3·3–4·0; both tests positive) to 6·2% (5·8–6·6; either test positive), with no differences by sex and lower seroprevalence in children younger than 10 years ( 10%) and lower in coastal areas (<3%). Seroprevalence among 195 participants with positive PCR more than 14 days before the study visit ranged from 87·6% (81·1–92·1; both tests positive) to 91·8% (86·3–95·3; either test positive). In 7273 individuals with anosmia or at least three symptoms, seroprevalence ranged from 15·3% (13·8–16·8) to 19·3% (17·7–21·0). Around a third of seropositive participants were asymptomatic, ranging from 21·9% (19·1–24·9) to 35·8% (33·1–38·5). Only 19·5% (16·3–23·2) of symptomatic participants who were seropositive by both the point-of-care test and immunoassay reported a previous PCR test. Interpretation The majority of the Spanish population is seronegative to SARS-CoV-2 infection, even in hotspot areas. Most PCR-confirmed cases have detectable antibodies, but a substantial proportion of people with symptoms compatible with COVID-19 did not have a PCR test and at least a third of infections determined by serology were asymptomatic. These results emphasise the need for maintaining public health measures to avoid a new epidemic wave. Funding Spanish Ministry of Health, Institute of Health Carlos III, and Spanish National Health System.
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                Author and article information

                Journal
                The Lancet
                The Lancet
                Elsevier BV
                01406736
                July 2020
                July 2020
                Article
                10.1016/S0140-6736(20)31482-3
                070fc90f-0a61-4fe4-a078-0d7ea9aab739
                © 2020

                https://www.elsevier.com/tdm/userlicense/1.0/

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