Epidemiology of COVID-19 Among Children in China

Discussion

To the best of our knowledge, this is the first retrospective study on the epidemiological characteristics and transmission dynamics of children’s COVID-19 in China. Because most of these children were likely to expose themselves to family members and/or other children with COVID-19, it clearly indicates person-to-person transmission. Supportive evidence of such a transmission pathway has also been reported from studies on adult patients.^10–12 As of February 8, 2020, of the 2135 pediatric patients included in this study, only 1 child died and most cases were mild, with much fewer being severe and critical cases (5.8%) than in adult patients (18.5%).¹³ The evidence suggests that, compared with adult patients, clinical manifestations of children’s COVID-19 may be less severe.

Coronaviruses are large, enveloped, positive-strand RNA viruses that can be divided into 4 genera, α, β, δ, and γ, of which α and β coronaviruses are known to infect humans, which are called human coronaviruses (HCoVs).¹⁴ Four HCoVs (HCoV 229E, NL63, OC43, and HKU1) are endemic globally and account for 10% to 30% of upper respiratory tract infections in adults.¹⁵ Although HCoVs have long been regarded as inconsequential pathogens because of their mild phenotypes in humans, in the early 21st century, 2 large-scale epidemics with alarming morbidity and mortality (ie, severe acute respiratory syndrome coronavirus [SARS-CoV] and Middle East respiratory syndrome coronavirus), have changed that view. From December 2019 to March 25, 2020, 2019-nCoV, another highly pathogenic HCoV, caused 81285 confirmed cases of illnesses and 3287 deaths.¹⁶ The epidemic is ongoing and rapidly evolving, and the ultimate scope and impact of this event is still unclear.

Genomic analyses suggest that the 2019-nCoV may originally come from bats because of the similarity of its genetic sequence to those of other known coronaviruses, but the pathogen was probably transmitted to humans by other animals that may serve as intermediate hosts, facilitating recombination and mutation events with the expansion of genetic diversity.^3–5 On February 7, 2020, researchers in Guangzhou, China, identified the pangolin as one of the potential sources of 2019-nCoV on the basis of a genetic comparison of CoVs in the samples taken from the animals and from humans who were infected in the outbreak and other findings.^17,18 Genetic sequences of viruses that were isolated from the scaly animals are 99% similar to that of the circulating virus.

Why most of the children’s COVID-19 cases were less severe than adult cases is puzzling. This may be related to both exposure and host factors. Children were usually well cared for at home and might have relatively fewer opportunities to expose themselves to pathogens and/or patients who are sick. Angiotensin-converting enzyme II (ACE2) was known as a cell receptor for SARS-CoV.¹⁹ 2019-nCoV has some amino acid homology to SARS-CoV and may be able to use ACE2 as a receptor. Recent evidence indicates that ACE2 is also likely the cell receptor of 2019-nCoV.^20,21 It is speculated that children were less sensitive to 2019-nCoV because the maturity and function (eg, binding ability) of ACE2 in children may be lower than in adults.²² Additionally, children often experience respiratory infections (eg, respiratory syncytial virus [RSV]) in winter and may have higher levels of antibody against virus than adults. Furthermore, children’s immune systems are still developing and may respond to pathogens differently from adult immune systems. However, we found that the proportion of severe and critical cases was 10.6%, 7.3%, 4.2%, 4.1%, and 3.0% for the age groups <1, 1 to 5, 6 to 10, 11 to 15, and >15 years, respectively. These results suggest that young children, particularly infants, were vulnerable to 2019-nCoV infection. Therefore, the mechanisms for the difference in clinical manifestations between children and adults remains to be determined.

There were more severe and critical cases in the suspected than confirmed category in this study. However, it remains to be determined if these severe and critical cases in the suspected group were caused by 2019-nCoV or other pathogens (eg, RSV). It may become clearer because the epidemic is quickly unfolding.

We observed slightly more boys than girls (56.6% vs 43.4%) being affected in the COVID-19 outbreak, which is similar to the 2 recent epidemiological studies.^13,23 However, no significant sex difference was observed in this study. The median age of all children’s COVID-19 cases was 7 years (interquartile range: 2–13), but ages ranged from 1 day to 18 years. This finding suggests that all ages of childhood were susceptible to 2019-nCoV.

Temporal distribution of children’s COVID-19 cases shows that, in the early stage of the epidemic (ie, between December 2019 and early February 2020), there was a trend of rapid increase of disease onset. Since early February 2020, the number of children’s COVID-19 cases has been declining. This finding indicates that the disease control measures implemented by the government were effective, and it is likely that this epidemic will continue to decline and finally stop in the near future unless sustained human-to-human transmissions occur. Most of the children’s COVID-19 cases were concentrated in Wuhan but spread to other areas of Hubei province and farther to other areas of China. It seems that the closer to Wuhan, the more cases in that area, which suggests that population mobility is an important factor of the spread of 2019-nCoV. Heilongjiang province is an exception, which may be because many visitors went there, including those from Wuhan, because of the Ice and Snow Sculpture Festival in Harbin, the provincial capital.

This study has several strengths. First, this is the first nationwide study, to date, with a major focus on the epidemiological characteristics and transmission dynamics of children’s COVID-19 in China. It shows that, compared with the adult cases, the severity of children’s COVID-19 cases was milder, and the case fatality rate was much lower.^13,23 Second, the large number of children’s COVID-19 cases enabled us to conduct detailed stratified analyses on sex, age, and spatiotemporal distribution. Finally, we included both confirmed and suspected COVID-19 cases, and it may reveal a comprehensive picture of pediatric patients with COVID-19 in China.

This study also has a number of limitations. First, we were unable to assess clinical characteristics of children’s COVID-19 because these data were unavailable at the time of analysis. As an important and urgent issue, clinical features of children’s COVID-19 need to be analyzed in further research. It appeared to have more severe and critical cases in the suspected than in the confirmed group (Table 1), which suggests that some suspected cases might be caused by other respiratory infections (eg, RSV). Second, we did not have information on children’s exposure history, and thus, the incubation period was not examined in this study. Finally, because the epidemic of COVID-19 is ongoing and rapidly evolving, many children who are affected still remain hospitalized. To gain a better understanding of children’s COVID-19, more detailed patient information, particularly clinical outcomes (eg, discharge, transfer to ICU, or death), should be collected in future studies.