key: cord-325954-rhrkr97h authors: Han, Mi Seon; Seong, Moon-Woo; Kim, Namhee; Shin, Sue; Cho, Sung Im; Park, Hyunwoong; Kim, Taek Soo; Park, Sung Sup; Choi, Eun Hwa title: Viral RNA Load in Mildly Symptomatic and Asymptomatic Children with COVID-19, Seoul, South Korea date: 2020-10-17 journal: Emerg Infect Dis DOI: 10.3201/eid2610.202449 sha: doc_id: 325954 cord_uid: rhrkr97h Along with positive SARS-CoV-2 RNA in nasopharyngeal swabs, viral RNA was detectable at high concentration for >3 weeks in fecal samples from 12 mildly symptomatic and asymptomatic children with COVID-19 in Seoul, South Korea. Saliva also tested positive during the early phase of infection. If proven infectious, feces and saliva could serve as transmission sources. I n the current pandemic of coronavirus disease , detecting severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in children suspected of having the disease is essential for both infection control and establishing a definite causal relationship in unprecedented cases (1, 2) . However, efforts are hindered by negative SARS-CoV-2 test results for respiratory specimens and possible cross-reactivity with other coronaviruses among seropositive cases (2, 3) . Little is known about the value of various samples other than nasopharyngeal or oropharyngeal swab specimens in diagnosing COVID-19 and understanding the viral dynamics of SARS-CoV-2 in children. Virus RNA was persistently detected in rectal swab specimens in a previous study, although the infectiousness of the virus is unknown (4). We analyzed the viral RNA load kinetics of SARS-CoV-2 in various clinical specimens in children with COVID-19. In South Korea, all confirmed case-patients, regardless of disease severity, must be isolated in hospitals or isolation facilities. For this study, we included all children <18 years of age who were confirmed to have COVID-19 by positive results for SARS-CoV-2 in combined nasopharyngeal and oropharyngeal swab specimens and who were hospitalized in Seoul Metropolitan Government-Seoul National University Boramae Medical Center during March 8-April 28, 2020. We extracted RNA from clinical specimens and detected SARS-CoV-2 by using the Allplex 2019-nCoV Assay kit (Seegene, http://www.seegene.com). We performed quantitation of the viral RNA with a standard curve constructed using in vitro transcribed RNA. This study was approved by the institutional review board at SMG-SNU Boramae Medical Center; written consent was waived. We included 12 children in the study; 9 were mildly symptomatic and 3 were asymptomatic (Appendix Table 1 , https://wwwnc.cdc.gov/EID/ article/26/10/20-2449-App1.pdf). Median age was 6.5 years (range 27 days-16 years). Nasopharyngeal swab specimens tested positive for SARS-CoV-2 RNA in all 12 children, and 11 (92%) had positive RNA in their fecal specimens (Appendix Table 2 ). We collected saliva samples from 11 children; 8 (73%) tested positive. Viral RNA load in the nasopharyngeal swabs peaked early at median 7.56 (range 6.19-10.56) log 10 copies/mL and decreased over time (p<0.001 for trend) (Figure, panel A) . The positivity of the specimens was 75% during week 2 and 55% during week 3 (Appendix Table 2 ). In comparison, the median initial fecal RNA load was 7.68 (range <4.10-10.27) log 10 copies/mL and Along with positive SARS-CoV-2 RNA in nasopharyngeal swabs, viral RNA was detectable at high concentration for >3 weeks in fecal samples from 12 mildly symptomatic and asymptomatic children with COVID-19 in Seoul, South Korea. Saliva also tested positive during the early phase of infection. If proven infectious, feces and saliva could serve as transmission sources. remained steadily high (p = 0.148 for trend) for >3 weeks ( Figure, panel B). Fecal positivity remained >80%. The median RNA load in fecal samples was significantly higher than that for nasopharyngeal swab specimens during week 2 (7.26 vs. 6.19 log 10 copies/mL; p = 0.006) and week 3 (7.61 versus 5.49 log 10 copies/mL; p = 0.006). Except for 1 case, the RNA load in saliva declined rapidly with time (p = 0.003 for trend) (Figure, panel C) . Positivity in saliva samples was 80% in week 1 but dropped sharply to 33% in week 2 and 11% in week 3. We collected urine specimens from the 12 patients after a median of 3 (range 0-8) days and plasma specimens at 2 (range 0-8) days from onset. Of these, urine samples of 2 (17%) patients tested positive (median load 5.69 [range 3.82-7.55] log 10 copies/ mL). Only 1 (8%) patient, 27 days of age, had RNA detected in plasma. Symptomatic children had higher initial RNA load in nasopharyngeal swab specimens than asymptomatic children (9.01 vs. 6.32 log 10 copies/mL; p = 0.048). We observed no significant differences in feces and in saliva and no correlation between RNA load and age. In this study, we detected SARS-CoV-2 RNA in feces of 92% of mildly ill or asymptomatic children with COVID-19. In addition, the RNA load in feces remained steadily high, whereas that in nasopharyngeal swab specimens and saliva declined with time in both symptomatic and asymptomatic children. The detection of SARS-CoV-2 RNA in feces does not necessarily mean that infectious virus is present; thus, lack of virus isolation in our study limits interpretation in the context of infectivity. However, viable virus was isolated in feces in previous studies, and infectivity was dependent on viral RNA load (3, 5, 6) . Considering these findings, proper handwashing when changing diapers in infants and adequate hygiene measures in restrooms are recommended to prevent the potential spread of the virus among household contacts. Our findings also suggest that feces is a promising and reliable source for detecting both current and recent SARS-CoV-2 infection because the viral RNA is present in high loads for a prolonged time. Fecal specimens could aid in seeking the etiologic relationship between COVID-19 and unexpected manifestations in children. We also detected SARS-CoV-2 RNA in saliva during the early phase of the infection for a short period of time. Live virus was isolated in saliva in a previous study, and the possibility of airborne transmission of the virus through normal speaking has been raised (7, 8) . Although the viral load in saliva drops rapidly, our findings suggest the necessity for children to wear masks, especially in schools, where children would talk in close proximity. Starting on May 6, several COVID-19 cases were confirmed among persons who had visited nightclubs in Itaewon during the holiday. Secondary transmission by case-patients linked to the Itaewon nightclubs led to local transmission of COVID-19 in other parts of the country (Figure) . On May 9, the Seoul Metropolitan Government announced indefinite closure of all nightclubs in Seoul to control the source of the outbreak. Subsequently, several regions prohibited mass gatherings. The Seoul Metropolitan Government and Yongsan-gu Office, in cooperation with the Seoul Metropolitan Police Agency, conducted contact tracing of persons who had visited any of the 5 major nightclubs in Itaewon during April 30-May 6. The use of cell phone location data, credit card records, and lists of nightclub visitors led to the identification of 5,517 persons for screening; of those, 1,257 were actively monitored. An additional 57,536 persons who had spent >30 minutes in the vicinity of the nightclubs, as determined by their cell phone location data, were sent a series of text messages encouraging them to undergo testing. After media outlets reported that venues at the epicenter of the outbreak were gay nightclubs, a rumor spread that this COVID-19 outbreak originated among gay men. Authorities became concerned that this rumor could adversely affect nightclub visitors' willingness to be tested. Because of prejudice against homosexuality, gay men in South Korea usually experience discrimination and stigmatization and so are often unwilling to reveal their sexual identity (2) . Thus, the Seoul Metropolitan Government consulted sexual-minority groups to discuss ways to encourage At least 246 cases of coronavirus disease (COVID-19) have been linked to nightclubs in Seoul, South Korea. During the April 30-May 5 holiday, young adults from across the country who visited nightclubs in Seoul contracted COVID-19 and spread it nationally. Nightclubs were temporarily closed to limit COVID-19 spread. Hyperinflammatory shock in children during COVID-19 pandemic An outbreak of severe Kawasaki-like RESEARCH LETTERS disease at the Italian epicentre of the SARS-CoV-2 epidemic: an observational cohort study Virological assessment of hospitalized patients with COVID-2019 Characteristics of pediatric SARS-CoV-2 infection and potential evidence for persistent fecal viral shedding Infectious SARS-CoV-2 in feces of patient with severe COVID-19 Emerg Infect Dis Evidence for gastrointestinal infection of SARS-CoV-2 Consistent detection of 2019 novel coronavirus in saliva The airborne lifetime of small speech droplets and their potential importance in SARS-CoV-2 transmission