J Korean Med Sci. 2020 Mar 23;35(11):e124. English.
Published online Mar 16, 2020.
© 2020 The Korean Academy of Medical Sciences.
Brief Communication

First Pediatric Case of Coronavirus Disease 2019 in Korea

Ji Young Park,1,* Mi Seon Han,2,* Kyoung Un Park,3 Ji Young Kim,4 and Eun Hwa Choi2,5
    • 1Department of Pediatrics, Seoul National University Bundang Hospital, Seongnam, Korea.
    • 2Department of Pediatrics, Seoul National University Children's Hospital, Seoul, Korea.
    • 3Department of Laboratory Medicine, Seoul National University Bundang Hospital, Seongnam, Korea.
    • 4Department of Radiology, Seoul National University Bundang Hospital, Seongnam, Korea.
    • 5Department of Pediatrics, Seoul National University College of Medicine, Seoul, Korea.
Received March 03, 2020; Accepted March 16, 2020.

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (https://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

The large outbreak of coronavirus disease 2019 (COVID-19) that started in Wuhan, China has now spread to many countries worldwide. Current epidemiologic knowledge suggests that relatively few cases are seen among children, which limits opportunities to address pediatric specific issues on infection control and the children's contribution to viral spread in the community. Here, we report the first pediatric case of COVID-19 in Korea. The 10-year-old girl was a close contact of her uncle and her mother who were confirmed to have COVID-19. In this report, we present mild clinical course of her pneumonia that did not require antiviral treatment and serial viral test results from multiple specimens. Lastly, we raise concerns on the optimal strategy of self-quarantine and patient care in a negative isolation room for children.

Graphical Abstract

Keywords
Coronavirus; COVID-19; SARS-CoV-2; Children

The current international outbreak of coronavirus disease 2019 (COVID-19) originated in Wuhan, Hubei province, China, in December, 2019 and it has now spread to at least 60 countries.1, 2 The World Health Organization escalated the risk assessment of COVID-19 to ‘very high’ at global level on February 28, 2020.3 As of March 01, 2020, there were 87,137 confirmed cases including 2,977 deaths worldwide.2 According to the report by the Chinese Center for Disease Control and Prevention, children are less affected with COVID-19 (1% for under 10 years and 1% for between 10 and under 20 years of age) and seem to have less severe disease than adults.4

Within one month of the first case of COVID-19 in Korea, a 10-year-old girl, who had no travel history outside Korea, was diagnosed with COVID-19 on February 18, 2020. The exposure history and self-quarantine method is shown in Fig. 1. The patient lived with her mother, father, and cousin in a multiplex housing unit, and her uncle and aunt lived upstairs. The patient's uncle, who ran a store in Wuhan, arrived in Korea on January 20, 2020, and had self-quarantined in his room from January 29, 2020. During quarantine period, he broke self-quarantine by having meals with his family members. On February 1, 2020, her uncle was confirmed with COVID-19 and was hospitalized in a designated hospital. From February 2, 2020, self-quarantine was resumed by the remaining five family members. Although the patient's father, aunt and cousin stayed in separate rooms, the patient shared the same room with her mother. On February 5, 2020, her mother was confirmed with COVID-19. Because the patient closely contacted her uncle and her mother, she was screened for COVID-19, and three screening tests for severe acute respiratory syndrome severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) were all negative on day 1 and day 4 since her uncle's diagnosis (February 1) and day 2 from the last exposure (February 5) to her mother. She remained well without subjective symptoms until the 13th day from the last exposure when she developed slightly elevated temperature of 37.3°C, which led to a confirmed diagnosis of her COVID-19 on February 18, 2020. A small amount of sputum for the previous three days was later reported. No other symptoms such as diarrhea or vomiting were reported.

Fig. 1
Diagram showing how the family members of the first pediatric patient with COVID-19 were in self-quarantine at home. The patient lived with her parents and her cousin, while her aunt and uncle lived upstairs. Her uncle was quarantined in his room but shared meals at her house (grey table) until he was confirmed with COVID-19. The remaining five family members had been placed in self-quarantine without sharing meals in the dining table (white table). The patient and her mother stayed in the same room until her mother's diagnosis. Individuals in black indicate the confirmed cases and bold line means a quarantine room. The actual floor plan may be different.
COVID-19 = coronavirus disease 2019.

On admission, she was not dyspneic nor cyanotic with a body temperature of 37.7°C. Initial laboratory results were as follows: white blood cell count 4,080/μL (37.3% lymphocytes), hemoglobin 13.5 g/dL, platelet count 251,000/μL, and C-reactive protein < 0.40 mg/dL. Real-time reverse transcription polymerase chain reaction (RT-PCR) for SARS-CoV-2 (Supplementary Data 1) was serially tested for the samples from nasopharynx, throat, saliva, serum, stool, and urine. Viral tests were positive in the samples from nasopharynx, throat, and stool (Fig. 2A). Serum, saliva, and urine tested negative on hospital days 3 and 8. Because the RT-PCR was developed for the qualitative assay, the cycle threshold values of RT-PCR could not be converted to viral load kinetics in this report. It is noteworthy, however, that stool samples were positive until the 17th day since symptom onset.

Fig. 2
Serial viral test results of multiple specimens and chest imaging of the patient. (A) Serial viral test results of the RNA-dependent RNA polymerase region of the ORF1b gene on real-time reverse transcription polymerase chain reaction are shown for multiple specimens according to the onset of symptoms. (B) Chest X-ray shows no infiltrations on admission, day 3 since symptom onset. (C) Chest CT performed on the fourth day since symptom onset demonstrates patchy nodular consolidations with peripheral ground glass opacities in subpleural areas of the right lower lobe in axial and sagittal views of CT.
CT = computed tomography, SARS-CoV-2 = severe acute respiratory syndrome coronavirus 2.

No infiltrations were noted on the initial and 3 follow-up chest X-ray images (Fig. 2B). However, chest computed tomography (CT) showed patchy or nodular consolidations with peripheral ground glass opacities in subpleural areas of the right lower lobe (Fig. 2C). The patient had no underlying disease and the only symptoms she presented with were low-grade fever and a small amount of sputum. Although chest CT showed mild pneumonia, antiviral therapy was not required.

This 10-year old girl took care of herself during the first 7 days spent alone in a negative isolation room. When her mother was discharged from her own negative isolation room, her mother joined her for care. She was transferred to a cohorting facility on the 15th hospital day to allow her isolation room to be used by another confirmed case in a more severe condition.

Very little research on COVID-19 in children has been published in China or elsewhere. Most of the COVID-19 cases in children resulted from close contacts with COVID-19 cases or were found among family cluster cases.5, 6 Most of the infected children had mild or difficult to recognize symptoms and some were even asymptomatic. Fever and cough were the most common symptoms, and some had runny nose, or gastrointestinal symptoms such as diarrhea, or vomiting. All of the cases improved, and no deaths have been reported so far.

We do not fully understand why children are less infected and less ill. Low infection rate and mild symptoms in children have also been observed in the previous SARS epidemic in 2003 and the Middle East respiratory syndrome (MERS) since 2012.7, 8, 9 One of the explanations of COVID-19 sparing the pediatric populations might be because children are less exposed to the virus in the first place. Children are less likely to be exposed to the virus because this novel virus is initially transmitted among travelers and their close contacts. Children might also have fewer chances to be tested for SARS-CoV-2 because they only present mild symptoms similar to common cold. The role of innate immunity to respiratory tract infection is greater in early life because the adaptive immune response is underdeveloped in young children.10 Given that both young children and adults lack adaptive specific immunity to this novel virus, mild clinical course in young children may be explained by their dominant innate immune response compared to adults. Weaker ability to trigger an acute inflammatory response to SARS-CoV-2 might also contribute to the children's better outcome. This, however, does not completely rule out the possibility of severe cases and even death especially in children with underlying diseases, as observed in the previous MERS epidemics.8, 9

Korea is now experiencing significant outbreaks and became the most-affected country after China.2 Nation's biggest clusters have connections to Shincheonji religious group in Daegu. Another worrisome cluster has been linked to the patients hospitalized in Daenam Hospital in Cheongdo.11 Viral tests are being run on massive scales in Korea. Thus, we may be able to diagnose more pediatric cases compared to other countries and have a unique opportunity to define the clinical features of COVID-19 in the pediatric population and the role of children in the transmission in child-care settings, schools and the community. Starting from several imported cases from Wuhan in January 2020, subsequent human-to-human transmissions occurred initially among their close contacts and family members. However, as the community spreads progress, we will see more cases among children. Among 3,526 confirmed cases, as of March 1, 2020, 164 children and adolescents under 20 years of age were diagnosed with COVID-19, comprising approximately 4.7% of the total confirmed cases.11 The percentage of the confirmed child cases in Korea is higher than that in China and has risen from 1.5% to 4.7% in just one week. These findings are worrisome. It is well known that children contribute to the community spread of seasonal influenza by introducing influenza to the family and by disseminating influenza in the community.12 To mitigate community spread of COVID-19, all school closures are justified in the current situation in Korea. To provide a scientific evidence for the effectiveness of school closures, we should not miss the opportunity to learn children's role in spreading SARS-CoV-2 to the community.

It is interesting to note that although this case had mild symptoms only, patchy or nodular consolidations with peripheral ground glass opacities were observed on chest CT. A recent study in China analyzed the CT images of 15 children with COVID-19, 10 of whom were asymptomatic and 5 had fever.13 Among the 15 children, pulmonary inflammatory lesions were observed in 9. Small nodular ground glass opacity was the most common finding and subpleural patchy opacities were also observable, with all lesions limited to a single lung segment. Adults generally have ground-glass and consolidative opacities in both lungs at chest CT.14 Chest CT is a highly sensitive diagnostic tool to detect pneumonia and the sensitivity for COVID-19 is reported to be 97.5%.15 However, considering the favorable clinical course in children with COVID-19, the necessity of performing CT scans on children should be judged with consideration of the potential health risks of radiation.

Meanwhile, one of the issues regarding pediatric patients with COVID-19 is quarantine. While in self-quarantine, the present patient shared the same room with her mother who was soon confirmed with COVID-19. Ideally, any close contacts should stay at home in a separate room and refrain from going out. However, unlike adults, self-isolating young children by themselves is almost impossible because infants and young children must be taken care of by their caregivers. Considering the circumstances, the Korean Centers for Disease Control and Prevention and the Korean Society of Pediatric Infectious Diseases recommend one of the family members to be assigned as a caregiver for infants and young children who are suspected or confirmed with COVID-19, and the caregiver not to contact other family members.16 Most importantly, caregivers should take all possible precautions to avoid being exposed to the virus. Thus, further pediatric-specific guidelines on the isolation and adequate personal protective equipment for caregivers should be prepared.

This 10-year old girl is the first pediatric case of COVID-19 in Korea. As this is only a single case, we cannot say much about clinical manifestations of childhood COVID-19 and viral load as a whole but can provide a model to pediatricians on which samples to test and what to consider in caring for children with COVID-19. As the number of confirmed cases surges in Korea, data on pediatric patients need to be comprehensively analyzed to further describe the clinical findings and to learn the role of children in a COVID-19 pandemic.

Ethics statement

Seoul National University Bundang Hospital Institutional Review Board approved this study (No. B-2003-603-701) and written consent was waived because the patient and her mother were isolated in a negative-pressure room and her father was in self-quarantine. The patient and her mother agreed to the publication of this report.

SUPPLEMENTARY MATERIAL

Supplementary Data 1

Diagnostic detection of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) by real-time reverse transcription polymerase chain reaction (RT-PCR) for the first pediatric case of coronavirus disease 2019 (COVID-19).

Click here to view.(155K, doc)

Notes

Disclosure:The authors have no potential conflicts of interest to disclose.

Author Contributions:

  • Conceptualization: Park JY, Han MS, Choi EH.

  • Data curation: Park JY, Park KU, Kim JY.

  • Formal analysis: Park JY, Han MS, Choi EH.

  • Investigation: Park JY, Park KU, Kim JY.

  • Writing - original draft: Han MS, Choi EH.

  • Writing - review & editing: Park JY, Han MS, Choi EH.

ACKNOWLEDGMENTS

We would like to thank all the staff and their families at the isolation unit and the office of Infection Control in the Seoul National University Bundang Hospital for their tireless efforts. We appreciate the hard work of all the members at Gyeonggi Infectious Disease Control Center. We thank Professor Hoan Jong Lee for his critical comments on this report. We also thank all the members of the Korean Society of Pediatric Infectious Diseases for their valuable advice on the management of this case. Lastly, we would like to thank the Korea Centers for Disease Control & Prevention for their effort and dedication at this difficult time and Stephen Comb for his excellent editing of this manuscript.

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