With a mortality rate of 2–3% and a transmissibility rate (R0) of 2–3, the COVID-19 virus outbreak is spreading rapidly worldwide and is the new foe.
The first cases in Wuhan, China, did not involve children, which suggested that the disease was not symptomatic in children [1]. Now that the outbreak is global with more than 90,870 confirmed cases and 3112 deaths (as of March 3, 2020) [2], we can evaluate more accurately the epidemiology of this disease. There are more than 900 confirmed pediatric cases, but currently no child under 10 years of age has died; only one individual between 10 and 19 years of age died [3], [4], [5], [6] and only one child under 1 year old was reported to have a severe form of the disease [7]. Most of the children were infected after exposure to an adult from the household [4]. These data suggest that children seem to have been spared the major impact of COVID-19 virus.
By comparison with adults, the number of confirmed pediatric cases is very low, and the severity and mortality rates are even lower [5], [6], [7], [8]. In China, the journal Zhonghua Liu Xing Bing Xue Za Zhi described the age distribution of 44,672 symptomatic confirmed cases: among 43,707 patients older than 20 years, there were 1022 deaths (2.3%), whereas among 416 patients aged 0–9 years there was no case of death (0%), and among 549 patients aged 10–19 years there was one death (0.2%) [5].
The proportion of asymptomatic patients described worldwide is very small (889 confirmed asymptomatic cases/45,561 confirmed cases in China; 2.0% [5]), but this could be underestimated because of the diagnostic methods that involved exclusively RNA detection by RT-PCR of secretions (nasopharyngeal and throat swabs and in stool samples [4], [9]). RNA in nasopharyngeal and throat swab samples has been shown to become undetectable within 6–22 days (mean: 12 days) of illness onset in children [4]. The excretion of the virus could be shorter in asymptomatic patients and there is no systematic sampling series in asymptomatic persons. The age distribution of asymptomatic patients is not detailed in the literature. Do children represent less severe cases, are they less infected, or are they being underdiagnosed as less symptomatic [10]?
Symptoms in children include flu-like syndrome, fluctuating fever, pneumonia, and upper respiratory signs (cough, sore throat, stuffy nose, sneezing, and rhinorrhea) [3], [4], [8]. Symptomatic care is sufficient in the majority of cases but sometimes antibiotic treatment of bacterial superinfection may be necessary. There have been reports about etiological treatment with the antiviral activity of chloroquine (a well-known antimalarial treatment) [11] and remdesivir (which had been tried against the Ebola virus) [12].
Similarly, no severe or lethal case linked to coronavirus infection has been reported to date among pregnant women [13], [14], [15]. However, a higher risk of preterm birth is reported (five preterm neonates at 30–33 gestational weeks, seven at around 34–36 gestational weeks, and 12 at full term/24 neonates), and maternal infection could be involved in neonatal distress; one neonate died but his samples were negatives for COVID-19 virus [13], [14], [15], [16]. The vertical transmission before and during delivery is unknown. Some data suggest that no viral RNA is found in amniotic fluid, cord blood, or breastmilk [13], but neonatal infected cases have been reported and they evolved favorably [17], [18], [19], [20], [21]. In cases of confirmed or suspected infection in pregnant women, it is necessary to maintain a high level of surveillance during the 14–21 days following birth. Breastfeeding should be encouraged as it is the best source of nutrition and also provides antibodies; the spread of the virus in milk is not well known. Infected mothers should wash their hands often with soap and water or hydro-alcoholic solutions and, if possible, wear a face mask. If a mother is too tired to breastfeed, it can be suggested to express the milk with manual or electric pumps so that a healthy member of the family or a caregiver may give the expressed milk to the infant. Hygiene is required when handling the pump and bottles in order to prevent transmission of viruses or bacteria [21].
No data are available in the literature concerning the severity of the infection in immunocompromised pediatric patients. And although caution should be taken in this population, the lack of data suggests that an increased risk of severe infection has not been demonstrated in these patients [22].
In conclusion, the COVID-19 virus seems to cause benign infections in children. The reasons for this tolerance are unknown. Currently, it is not clear whether specific pediatric populations (children with chronic disease or immunosuppressive treatment) will also have such a favorable outcome. Moreover, children as asymptomatic or mildly symptomatic carriers of the virus may transmit the virus to other groups (elderly relatives, caregivers, etc.) even if no transmission of the COVID-19 virus from children to adults has been described to date. Children and their relatives should act to prevent the spread of respiratory infections (covering coughs, cleaning hands often with soap and water or hydro-alcoholic solutions), and in the event of suspected or confirmed cases they should wear a mask. Furthermore, orofecal transmission is suspected as COVID-19 virus DNA has been detected in stool samples.
This article was written early march. Since new data have been published, allowing a better view of pediatric population without changing the sense of this article, however you can refer to Dong Y. et al in pediatrics1 and Lu. X et al in NEJM2 .
Disclosure of interest
The authors declare that they have no competing interest.
Footnotes
Dong Y, Mo X, Hu Y, Qi X, Jiang F, Jiang Z, et al. Epidemiological Characteristics of 2143 Pediatric Patients With 2019 Coronavirus Disease in China. Pediatrics. 2020 Mar 16. pii: e20200702.
Lu X, Zhang L, Du H, Zhang J, Li YY, Qu J, et al. SARS-CoV-2 Infection in Children. N Engl J Med. 2020 Mar 18.
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