key: cord-0995952-ls8erpcl
authors: Hyde, Zoë
title: COVID‐19, children and schools: overlooked and at risk
date: 2021-02-28
journal: Med J Aust
DOI: 10.5694/mja2.50934
sha: fb15468f1d12b5783ddef5bca9f9a5ba8ca485a4
doc_id: 995952
cord_uid: ls8erpcl

nan

Schools remain overlooked as sites of risk. For example, the government of the United Kingdom continues to maintain face masks are unnecessary in these settings, 1 despite high levels of community transmission. The household contact studies referred to by Munro and colleagues, are overwhelmingly based on the results of polymerase chain reaction (PCR) tests, and are affected by the biases I previously described. 2 However, when serology is assessed, similar secondary attack rates in children, adolescents and adults are observed. 3 Munro and colleagues point out mortality is very low in children. This is not in dispute. However, it should be noted that the outcomes they present occurred in the setting of unprecedented non-pharmaceutical interventions. As such, it would be premature to draw comparisons with influenza. In addition, the long term outcomes of multisystem inflammatory syndrome -a rare but serious complication of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection -are unknown. 4

Britton et al and Ryan et al highlight a systematic review and meta-analysis by Viner and colleagues, 5 which appears to show children are less likely to be infected than adults. However, as acknowledged by Viner et al, the studies reviewed were predominantly of low to medium quality. Additionally, the authors of the meta-analysis make analytical errors which further question their findings. With regard to the study by Wang et al, 6 Viner and colleagues mistakenly classified adult index cases as contacts. Furthermore, for the study by van der Hoek et al, 7 Viner and colleagues erroneously reported zero cases in children when there were at least 24 cases. Furthermore, of the 14 studies included in the meta-analysis, three did not test all contacts, 6,8,9 and in another two 10,11 it is unclear if all persons were tested. Two studies included in the meta-analysis explicitly state non-high risk contacts were only tested if they developed symptoms. 8, 9 These limitations are problematic given children are much more likely to be asymptomatic than adults. Importantly, there is evidence that this bias was differential. For example, children were less likely than adults to be tested in the study by Wang et al. 6 Similar biases also apply to the review by Goldstein and colleagues, 12 referred to by both Munro et al and Ryan et al. It is surprising to note the review's conclusion, that children aged under 10 years are at most half as susceptible as adults, is based on a single unpublished study. Other studies find children and adults are similarly likely to be infected. 3,13 Nonetheless, Goldstein and colleagues 12 call for the implementation of risk-reduction strategies in schools, with which I agree.

It is beyond the scope of this letter to comment on the Journal's policy with regard to preprints. However, given the rapidly evolving situation in Australia at the time of publication, one would think the timely communication of material that enhanced our understanding of the epidemiology of COVID-19 would have merit.

Since publication of the Perspective, further studies have provided evidence children may transmit SARS-CoV-2 at similar rates to adults. These comprise a study from India of 84 965 cases and 575 071 close contacts 14 and a prospective study of 101 households in Tennessee and Wisconsin conducted by the Centers for Disease Control and Prevention. 15 The Victorian data 16 referred to by Ryan et al are interesting, but lack precision. While the data indicate children may be less likely to initiate outbreaks in childcare centres than adults (with the caveat that some cases may have gone undetected since not all children may have been tested), no statistically significant difference is observed with regard to primary and secondary schools (Box).

Furthermore, the authors of the Victorian report note 66% of infections in childcare centres and schools were limited to a single case, but fail to note this is an expected consequence of the overdispersed nature of SARS-CoV-2 transmission. About 5-20% of primary cases are responsible for 80% of secondary infections, and about 70% of people do not infect anyone. 14, 17, 18 What was seen in Victorian schools is therefore typical for adults and children alike.

Ryan and colleagues describe asymptomatic infection as not uncommon in children. In fact, their own data show it is very common: in Victoria, 33% of Childcare and school events occurring in Victoria (January-August 2020) and proportion resulting in an outbreak 16 Setting 16 This is likely to hinder case-finding. Indeed, the Victorian report notes that "[a]s children tend to be asymptomatic or develop only mild symptoms, it is harder to detect infection in this age group". 16 The report goes on to state that "[a] surveillance strategy that tests only symptomatic children will fail to identify children who are silently shedding the virus, and who may be infectious". 16 Furthermore, the international data referred to by Ryan et al is a single 4-6

week study conducted at a time of low community transmission, comprising only three active cases. 19 In contrast, more recent data from Europe show SARS-CoV-2 infections in children are frequent. Random testing of the general community in England shows children (aged 5-12 years) and teenagers (aged 13-17 years)

are currently more likely to be infected than any other age group. 20 Gray and colleagues make a valuable point that children have also been overlooked in health education campaigns. Health education and health promotion are vital tools we must deploy against the pandemic. To succeed, we require a diverse, multidisciplinary approach based on a sound understanding of the epidemiology of COVID-19 in children.

Age specificity of cases and attack rate of novel coronavirus disease

On the effect of age on the transmission of SARS-CoV-2 in households, schools and the community

Epidemiology and transmission of COVID-19 in 391 cases and 1286 of their close contacts in Shenzhen, China: a retrospective cohort study

Epidemiology and transmission dynamics of COVID-19 in two Indian states

Transmission of SARS-COV-2 infections in households -Tennessee and Wisconsin

COVID-19 in Victorian schools: an analysis of child-care and school outbreak data and evidence-based recommendations for opening schools and keeping them open

Estimating the overdispersion in COVID-19 transmission using outbreak sizes outside China

Clustering and superspreading potential of SARS-CoV-2 infections in Hong Kong

London: Department of Health and Social Care, Government of the United Kingdom

REACT-1 round 7 updated report: regional heterogeneity in changes in prevalence of SARS-CoV-2 infection during the second national COVID-19 lockdown in England

Children's Task and Finish Group: update to 4 November 2020 paper on children, schools and transmission. London: Government of the United Kingdom