Background
Since mid-December 2019, an infection caused by a new type of coronavirus (SARS-COV-2) emerged in Wuhan (Hubei Province, China) and spread rapidly worldwide. The emerging SARS-COV-2 is a beta coronavirus that can cause COVID-19, officially named by the World Health Organization (WHO) on February 11, 2020. This virus is highly contagious and can be transmitted by an infected person or an asymptomatic carrier through respiratory droplets, tear fluid and close contacts. The incubation period is variable. It has been estimated that the median incubation period is 5.1 days and that 97.5% of infected patients will develop symptoms within 11.5 days of infection.
Despite the high number of people affected, data on clinical features and prognostic factors in children and adolescents are limXited. Children are part of a very special group. Similarly to the SARS-COV 2002–2003 epidemic [
1,
2], pediatric COVID-19 appears to be mild or asymptomatic [
3,
4]. Children become less ill than adults and most of them contract the infection mainly through close contact with their parents or other family members with COVID-19. Many children infected with SARS-COV-2 manifest a mild disease that often does not require hospitalization. Compared to adults, children have a lower chance of developing interstitial pneumonia, one of the most serious complications of the infection, which in the advanced form requires hospitalization in intensive care. As for the adults, the presence of congenital heart disease, lung and airway disease, malnutrition, and cancer makes children more susceptible to COVID-19.
There are several hypotheses on the mechanisms underlying the lower susceptibility of children to COVID-19 infection than adults: i) a more efficient immune response due to the stimulation given by typical age vaccinations; ii) a lower expression of the angiotensin-converting enzyme 2 (ACE2) receptor to which the virus would bind to enter cells [
5]; iii) an “immaturity” of the ACE2 receptors, which makes it difficult for the virus to enter the body [
6]; and iv) external factors (before the lockdown, children were less likely than adults to visit places that could have facilitated the spread of the virus, such as railway stations and airports) [
7].
In children with COVID-19, fever and cough are the most common clinical manifestations, sometimes accompanied by fatigue, myalgia, nasal congestion, sneezing, sore throat, headache, dizziness, vomit and abdominal pain. Moreover, some children do not manifest fever, but only cough or diarrhoea, or they may be asymptomatic. The latter, even if they do not manifest symptoms, may play significant roles in the transmission of COVID-19 in the community.
Italy was one of the European countries most affected by the COVID-19 pandemic. By 16 April 2020, 1123 children, up to 9 years of age, and 1804 adolescents, aged between 10 and 19 years old were tested positives for COVID-19 [
8].
In Italy most of the data on COVID-19 pediatric patients derive from a multicentre study promoted by the Italian Society of Paediatric Infectious Diseases (SITIP), within the Italian Society of Paediatrics (SIP). In this study 168 children aged 1 day to 17 years, 94 (55.9%) males and 74 (40.1%) females, with confirmed COVID-19 were analysed [
9]. 65.1% of these children were hospitalized: of these, only 17 (15.5%) were sent to the hospital after seeing a paediatrician or family doctor. Moreover, 5.9% of children documented co-infections with other viruses such as respiratory syncytial virus, rhinovirus, Epstein-Barr virus, influenza A virus and a non-SARS coronavirus. Bacterial co-infection with
Streptococcus pneumoniae has also been documented. Pre-existing chronic pathologies, such as chronic lung diseases (
n = 7), congenital malformations or complex genetic syndromes (
n = 14), cancer (
n = 4), epilepsy were found in 33 children. Moreover, gastrointestinal (
n = 2) or metabolic (
n = 1) disorders were found. Among these patients 4 were immunosuppressed and 3 immunocompromised. The hospitalization rate was similar between children with and those without co-morbidity.
Studies have reported a higher incidence of COVID-19 in males than in females in the adult population [
10]. This study is aimed to evaluate clinical characteristics of children infected with SARS-CoV-2 in Italy.
For this purpose, 66 patients admitted to Bambino Gesù Children’s Hospital of Rome (Italy) in the period from the end of February to July 2020 were analysed.
Methods
Study design and participants
Sixty-six patients (35 males and 31 females), admitted with COVID-19 to Bambino Gesù Children’s Hospital of Rome (Italy) in the period from the end of February to July 2020, were enrolled in this retrospective cohort study. Mean age of patients was 6.8 years (range ≤ 1–18 years).
All patients had contracted the infection from their parents and they were hospitalized because showed signs and symptoms such as fever, cough, vomit, diarrhea, convulsions, headache or pneumonia. Fourteen patients were asymptomatic (7 males and 7 female), but they were hospitalized and monitored until they tested negative at the swab (Table
1).
Table 1
Features of patients at admission
Age, median (range)-years | 5.98 (range ≤ 0.1–14.8) | 8.1 (range ≤ 0.2–16) |
Hospitalization, median (range)-days | 7.24 (range 3–21) | 9.50 (range 3–22) |
Signs and symptoms |
Asyntomatic | 7 (20%) | 7 (22.5%) |
Fever | 13 (37%) | 12 (38%) |
Cough | 6 (17%) | 7 (22.5%) |
Vomit | 1 (2.8%) | 2 (6.4%) |
Diarrhea | 5 (14%) | 3 (9.6%) |
Convulsions | 1 (2.8%) | 4 (12.9%) |
Headache | 4 (11%) | 3 (9.6%) |
Coinfections | 3 Rhinovirus (8.6%) 1 Campylobacter (2.8%) 1 Enterovirus (2.8%) 1 E. coli (2.8%) | 2 EBV (6.4%) 1 HHV6 (3.2%) |
Pneumonie | 2 (5.7%) | 0 |
The study was performed in accordance with Good Clinical Practice and the Declaration of Helsinki principles for ethical research. Ethics approval and written informed consent were waived due to the rapid emergence of this infectious disease. Three researchers and a physician collected and reviewed the data. Medical history, underlying comorbidities, symptoms and laboratory findings both at admission and during hospitalization, were obtained from patients’ electronic medical records. The date of disease onset was defined as the day when the symptoms were noticed.
Laboratory measurements
All patients underwent nasopharyngeal, eye, urine and stool swab. The presence of SARS-CoV-2 in respiratory specimens was detected by real-time reverse transcription (RT-PCR) methods. Analyses by gene amplification reaction and Real Time RT-PCR were also carried out to exclude evidence of other viral infections, including influenza, respiratory syncytial virus, avian influenza, para-influenza, adenovirus and rhinovirus. Routine bacterial and fungal examinations were also performed. Moreover, EBV and herpes virus (HHV6) infections were routinely screened and detected by using a test that identifies antibodies to EBV and HHV6 in the blood.
Data include all paediatric patients in whom COVID-19 was documented by at least one nasal/ pharyngeal swab specimen positive for SARS-CoV-2 nucleic acid using RT-PCR assay.
Statistical analysis
To compare medians and range of values between two groups we used the Mann-Whitney’s U test. The level of significance was determined at p < 0.05.
Discussion
This study describes the characteristics of a sample of children admitted with COVID-19 to Bambino Gesù Children’s Hospital of Rome (Italy) in the period from the end of February to July 2020. All data were analyzed taking into account gender. In this retrospective study based on medical records data, we found that, compared to adults, the pediatric population gets less COVID-19 and had less severe clinical manifestations. Fever and cough were the dominant symptoms, while gastrointestinal symptoms were rare. Moreover, we found that all ages of childhood were susceptible to COVID-19: from a few days of life to 18 years. In particular, we found that females with COVID-19 were (although not significantly) older than males and required more days of hospitalization. Interestingly, from medical records we found lymphopenia in both sexes and high LDH values in females from 1 to 10 years old. LDH is a cytoplasmic enzyme present in all major organ systems and is released into the peripheral blood after cell death. Increased serum LDH levels are associated with pulmonary disease such as obstructive diseases, microbial pulmonary diseases and interstitial lung diseases such as acute respiratory distress syndrome [
11].
During hospitalization some male patients developed mild thrombocytosis and exhibited increased inflammation evaluated in term of high CRP values. CRP is an inflammatory marker that plays an important role in host defense against invading pathogens [
12]. Sun et al., shown that CRP was elevated in severe and critically adult patients with COVID-19 [
13].
It has been found that in virus mRNA positive patients a decline of LDH in the serum correlated with viral mRNA elimination, suggesting that constitutive decrease of LDH levels probably predicts a favourable response. LDH can thus be used as indicators of disease progression [
2].
Platelets have been increasingly recognized as an important component of the immune response to infections, an increase in their number above the normal range (thrombocytosis) has often been considered a sign of normal inflammatory reaction. Compared to primary thrombocytosis, the reactive thrombocytosis is not associated with higher risk of cardiovascular or thrombotic events [
14].
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