key: cord-0968615-3q261217
authors: Mazza, Angelo; Di Giorgio, Angelo; Martelli, Laura; Pelliccia, Ciretta; Pinotti, Moira Alessandra; Quadri, Vera; Verdoni, Lucio; Decio, Alice; Ruggeri, Maurizio; D'Antiga, Lorenzo
title: Patterns of Presentation of SARS-CoV-2 Infection in Children. Experience at the Italian Epicentre of the Pandemic
date: 2021-01-28
journal: Front Pediatr
DOI: 10.3389/fped.2021.629040
sha: 2bb7f86c4d6c7be733c3e2cf0ef9b84b5c4bf911
doc_id: 968615
cord_uid: 3q261217

Background: COVID-19, a disease caused by the new coronavirus SARS-CoV-2, spread worldwide, and Bergamo was one of the most affected areas in Europe. Following the first outbreak, more than half of the population of the Bergamo province had been infected. We aimed to describe the patients admitted to our unit shortly after the first outbreak. Methods: we retrospectively reviewed the notes of all pediatric patients diagnosed with COVID-19. We enrolled patients with positive swabs or serology and classified them based on the pattern and the timing of presentation after the first outbreak. This setting was considered a reliable reflection of the consequences of unmitigated SARS-CoV-2 circulation. Results: We diagnosed 35 patients over a 3-month period and we identified six patterns presenting in two temporal phases: Early phase, Group 1 (median of 20 days from epidemic start, IQR: 15–27): neonatal sepsis (n.7), pneumonia (n.5), flu-like symptoms (n.2). Late phase, Group 2 (59:51–66 days, p < 0.001): MIS-C (n.18), neurological manifestations (n.3). Group 1 differed from Group 2 for younger age (1 vs. 8 years, p = 0.02), lower C-reactive protein (0.9 vs. 16.6 mg/dl, p = 0.008), procalcitonin (0.16 vs. 7.9 ng/ml, p = 0.008) and neutrophil count (3,765 vs. 6,780/μl, p = 0.006), higher rate of positive swabs (14/14 vs. 9/21, p < 0.001), higher lymphocyte count (3,000 vs. 930/μl, p = 0.006) and platelet count (323,000 vs. 210,000/μl, p = 0.009). Conclusions: Following an outbreak of unmitigated SARS-CoV-2 diffusion, infected children may present with clinical patterns suggesting two temporal clusters, the first characterized by markers of direct viral injury, the second suggesting an immune-mediated disease.

The SARS-CoV-2 epidemic, causing a disease named "COVID-19, " has spread worldwide since the beginning of 2020. Italy was the first European country to be involved and Bergamo, the most affected city in the first wave of the epidemic. In Italy 960,373 infected people and 41,750 deaths have been reported as of November 9. Overall 265,531 cases occurred in Lombardy, of which 20,390 in Bergamo (1). Shortly after the free circulation of the virus, a local study revealed that 56% of the population of the Bergamo province had been infected by SARS-CoV-2 (2) .

These numbers argue why Bergamo and its area (around 1,200,000 inhabitants in all) have become a model of the impact of COVID-19 epidemic on people's health.

COVID-19 presents different patterns of clinical presentation in adults and children (3) . In adults, the clinical picture is dominated by interstitial pneumonia possibly complicated by cardiovascular involvement. Following the infection of an adult person, a three-phase course of the disease has been described, with a progression from initial involvement of the upper airways to abnormal chest imaging due to the descent of the virus to the alveolar cells; the third phase is characterized by a vigorous immune response of the host, leading to a cytokine storm, with elevated inflammatory and cardiac biomarkers associated with severe interstitial pneumonia (4) .

In children the clinical presentation is mild, mostly with an influenza-like pattern (5) . Serious cases are rare and full recovery is the rule. Few cases require hospitalization, but the majority of children can be managed as outpatients or have an asymptomatic course (5, 6) .

The aim of this study is to analyze the clinical pattern of pediatric patients admitted to our unit during the first 3 months of the outbreak of SARS-CoV-2 in Bergamo, following a period of unmitigated viral circulation.

In this study we retrospectively reviewed the notes of patients admitted to the general paediatric unit of Hospital Papa Giovanni XXIII in Bergamo (Italy), and managed as inpatients, from February 25 to May 23, 2020. Our unit is a tertiary pediatric referral center with ∼1,300 pediatric admissions per year, serving a province of approximately one million people.

From the start of the epidemic we set up a dedicated COVID area in our general pediatric ward, hosting all patients/parents with a positive nasopharyngeal/oropharingeal (NP/OP) swab, Abbreviations: SARS-CoV-2, severe acute respiratory syndrome coronavirus 2; COVID-19, coronavirus disease-19; MIS-C, Multisystem inflammatory syndrome in children; NP/OP, nasopharyngeal/oropharingeal; PPE, personal protective equipment; RT-PCR, reverse-transcriptase polymerase-chain-reaction; ICU, intensive care unit; IL-6, interleukin-6; PCR, polymerase chain reaction; WBC, white blood cells; IVIG, intravenous immunoglobulin; ASA, Acetyl salicylate acid; CRP, C-reactive protein; LDH, lactate dehydrogenase; ALT, Alanine aminotransferase; IQR, interquartile range; ACE-2, angiotensin converting enzyme-2; TGF-ß, transforming growth factor-ß; IL-10, Interleukin-10. managed with full isolation and personal protective equipment (PPE) (7) .

No other hospitals in our area created a COVID-19 dedicated area. The patients were admitted in the first phase of the epidemic and during the lockdown, therefore we considered this situation a reliable reflection of the consequences of unmitigated SARS-CoV-2 circulation in the pediatric population of the province of Bergamo.

During the study period all patients admitted to our unit underwent NP/OP, testing SARS-CoV-2 nucleic acid using realtime reverse-transcriptase polymerase-chain-reaction (RT-PCR) assay; patients with a positive NP/OP test were considered confirmed cases of SARS-CoV-2 infection.

A proportion of patients admitted to our unit underwent also a test for the qualitative detection of SARS-CoV-2 antibodies (IgM and IgG) through a lateral flow chromatographic immunoassay (NADAL R COVID-19 IgG/IgM Test, nal von minden GmbH, Carl Zeiss Strasse 12, 47445 Moers, Germany). Positivity of IgM and/or IgG was considered consistent with a recent or previous infection by SARS-CoV-2, respectively.

Among all admissions we identified those who were related to SARS-CoV-2 infection based on NP/OP and serology testing (here referred to as "COVID-19"). COVID-19 patients were analyzed to ascertain different patterns of presentation by age and symptoms. We classified COVID-19 patients into six categories, based on previous reports on manifestations of SARS-CoV-2 in children (8) .

• Neonatal/Infantile viral sepsis: patients meeting the criteria for paediatric systemic inflammatory response syndrome (SIRS) (at least two from fever, tachycardia, tachypnea, elevated leukocyte count; one of two must be fever or abnormal leukocyte count) in children under 3 months of age (9). • Pneumonia: presence of a compatible chest X ray.

• Influenza-like syndrome: history of fever and upper respiratory tract symptoms. • Multisystem inflammatory syndrome in children (MIS-C): Age <21 years and a presentation including all of the following: polymerase chain reaction (PCR); Positive serology for SARS-CoV-2; Positive antigen test; COVID-19 exposure within the 4 weeks prior to the onset of symptoms (10).

• Neurological manifestations: any symptoms related to nervous system involvement requiring hospitalization. • Miscellaneous: NP/OP positive for SARS-CoV-2 but admitted for reasons unrelated to COVID-19 (surgical problems, trauma, chemotherapy or skin rash) and managed in our pediatric COVID area.

Data obtained from the hospital medical records populated an ad hoc database and included demographic informations, presenting symptoms, contact with confirmed or suspected cases of COVID-19, laboratory data (including white blood cell count, neutrophils and lymphocyte count, C-reactive protein (CRP), pro-calcitonin, lactate dehydrogenase (LDH), Alanine aminotransferase (ALT) and creatinine). Chest X-ray was evaluated when performed.

The Student t-test, the χ2 method, or Fisher's exact test were performed when appropriate to compare continuous and categorical variables. A P-value < 0.05 was chosen as cut-off for significance. Data were analyzed with SPSS (IBM Corp. 

From February 25 to May 23, 153 patients were admitted to our unit. In the same period of the previous year we admitted 173 patients. All the 153 patients performed a NP/OP for SARS-CoV-2 and 33 resulted positive. Twenty patients of the 153 also performed a serological test with a positive result in 15. Three of these patients had a positive NP/OP sample as well. Figure 1 reports data regarding patients visiting our emergency department, providing information on percentage of hospitalizations and discharge. Overall, 45/153 (32% of all admitted) patients were diagnosed with COVID-19 presenting as: viral sepsis (n. 7), pneumonia (n. 5), flu-like symptoms (n. 2), MIS-C (n. 18), neurological manifestations (n. 3). The remaining 10 patients were admitted to our pediatric COVID-19 area because of the positive result of the NP/OP swab screening, but without a clinical pattern in keeping with a viral infection or SARS-CoV-2 immune-mediated disease. Six out of 45 patients were admitted to Intensive Care Unit (ICU), none of them died. Figure 2 reports the timeline distribution of the various patterns of presentation of our patients. Figure 3 shows that the different patterns of presentation can be grouped based on the different timing of onset. All patients with viral sepsis, pneumonia and influenza-like symptoms (14 children) presented in the first month following the start of the local epidemic, dating February 23 (median time from the epidemic onset 20 days, , and are classified as Group 1. Patients with a diagnosis of MIS-C or neurological manifestations (21 children) presented in the second and third month after the start of the epidemic (median time 59 days, IQR 51-66) and are classified as Group 2 (Group 1 vs. Group 2 p < 0.001). The 10 patients with an incidentally positive NP/OP, admitted for conditions unrelated to COVID-19, were distributed evenly in the study period and are not included in this analysis (Figure 4 ). Data on all the patients are reported also in Table 1 .

The first cluster presented at a median time from the start of the epidemic of 20 days (Interquartile range, IQR: [15] [16] [17] [18] [19] [20] [21] [22] [23] [24] [25] [26] [27] and comprised 14 children with viral sepsis (n. 7), pneumonia (n. 5), and influenza-like sdr (n. 2), of a median age of 1 year (0,1-7) and a median weight of 21 kg (16.5-36) . Eight were males (57%) and 12 of Caucasian origin (86%). All patients resulted NP/OP positive for SARS-coV-2. One of them performed a serology test that resulted positive 2 months after diagnosis. A positive history of contact with an affected family member was present in 10 of them (71%). The median days of fever were three (2) (3) (4) (5) . Medians of the blood count values were, respectively: White blood cells (WBC) 7,675/µl (7,270-8,527), Neutrophils 3,765/µl (2,767-4,725), Lymphocytes 3,000/µl (1,527-3,600), Haemoglobin (Hb) 13.1 g/L (9-5-13.3), platelets 323,000/µl (212,000-349,000). Median CRP was 0.9 mg/dl (0.25-8.9) and median procalcitonin was 0.16 ng/ml (0.11-0.51). Median LDH was 395 IU/L (356-440), creatinine 0.34 mg/dl (0.2-0.4) and ALT 26 IU/L (20-39). A chest X-ray was obtained in 10 patients and resulted positive in five with pneumonia and two with neonatal sepsis. Eight of 10 were treated with a course of intravenous antibiotics, three needed invasive respiratory support and one received antiviral therapy. Anti-inflammatory medications (steroid and hydroxychloroquine) were administered to 3 out of 14 patients.

The second group presented at a median time from the start of the epidemic of 59 days (51-66), and comprised 21 children with MIS-C (n. 18) and neurological manifestations (n. 3), of 

This group presented at a median time from the start of the epidemic of 42 days (20-67), and comprised 10 patients with a median age of 7 years (4-14) and a median weight of 24 Kg (17-53). They were admitted for surgical, haematological or dermatological illnesses. Six were males (60%) and 8 were of Caucasian origin (80%). All these patients had a positive NP/OP for SARS-CoV-2 and four of them had a history of contact with a intrafamiliar positive case. Median days of fever was two (0-3). Median of the blood exams was: WBC 7,660/µl (1,530-10,880), Neutrophils 2,805/µl (205-7,268), Lymphocytes 1,390/µl (483-1,888), haemoglobin 10.3 g/L (9.4-11.2), platelets 173,000/µl (50,000-269,000), CRP 0.15 mg/dl (0-1.2), LDH 317 IU/L (210-435), creatinine 0.42 mg/dl (0.02-0.04) and ALT 29 IU/L (22-43) respectively. Three patients performed a chest X-ray, consistent with pneumonia in two of them. The third patient had a negative chest X-ray but performed a CT scan resulting positive for interstitial pneumonia.

A statistical analysis was carried out to compare Group 1 and Group 2, and data are summarized in Table 2 .

Days of presentation after the start of the pandemic differed significantly from the two groups and was delayed in Group 2 (p < 0.001), as well as age that was older in Group 2 (p = 0.02). There was a significant difference for Neutrophil and platelet count, CRP and procalcitonin, that were all higher in Group 1. A significant difference was found also for Lymphocyte count, lower in Group 2. No significant differences were observed for renal and liver function, LDH levels and number of days of fever. All patients in Group 1 had a positive swab sample for SARS-CoV-2 against 43% in Group 2 (P = < 0.001). Serology was performed in one of Group 1 and was positive (other patients could not perform serology because it was not yet available at the moment), vs. 14 positive on 21 tested in Group 2. A history of contact with a COVID-19 case was present in 10/14 (71%) of Group 1 vs. 12/21 (57%) of Group 2 (P = 0.48).

The analysis of the first European centre hit by SARS-CoV-2 pandemic may be advantageous in terms of understanding COVID-19 patterns of presentation in children. Indeed, the fact that at that time the local situation was not mitigated by containment measures and that a lockdown was adopted shortly thereafter makes this setting a reliable frame depicting the effects of SARS-CoV-2 free viral circulation. In this context, the timeline distribution (Figures 2, 3) of the diagnoses related to COVID-19 revealed a biphasic pattern, well-distinguishable in terms of clinical presentation.

In the first phase of the epidemic, infants were admitted with patterns typical of an infectious disease: flu-like symptoms, pneumonia or viral sepsis. All these cases, called Group 1, are attributable to a mechanism of direct injury by SARS-CoV-2, with half of them presenting chest X ray lesions, and all of them having a positive NP/OP for SARS-CoV-2. Intriguingly this "infectious pattern" of presentation disappeared with social isolation measures. No case, with the same characteristics, has occurred since April 4 (in Italy the lockdown started on March 9).

The second group of patients, here referred to as Group 2, comprised 21 children: 18 with a diagnosis of MIS-C and three with neurological manifestations. Only 43% of patients presented a positive NP/OP for SARS-CoV-2, whereas the others had a positive serology. The statistical comparison between the two groups ( Table 2 ) reveals a significant difference in blood cells count (neutrophils, lymphocytes and platelets) and in markers of inflammation (procalcitonin and CRP), suggesting a different pathophysiology of the disease. Remarkably, the first patient with a diagnosis of MIS-C was admitted on the 30 th of March while the first adult case of COVID-19 reported in the same region dates back to February 22.

SARS-CoV-2 infection in children usually presents a benign course, when compared to the adult population. All reports published so far show that children mostly present mild respiratory symptoms, with sporadic complications limited to people with comorbidities (11) .

Patients admitted to our unit confirmed this impression. The patients with a more severe respiratory involvement had underlying comorbidities (Down syndrome and children with special health care needs). As already reported, several patients had some chest radiological abnormalities without showing any respiratory symptom (12) . This data supports the tropism of SARS-CoV-2 for the respiratory tract also in asymptomatic patients (3, 13) . The different expression of angiotensin converting enzyme-2 (ACE-2) receptor in children and adults has been advocated as one of the factors implicated in the reduced morbidity of SARS-CoV-2 observed at young ages (14, 15) . ACE-2 is a counterregulatory enzyme of the renin-angiotensin-system acting by converting angiotensin-2 to Ang-(1-7) form. Upregulation of the angiotensin-2 axis leads to pro-inflammatory effects in the respiratory and cardiovascular systems (16) . After entering pneumocytes, SARS-CoV-2 downregulates ACE-2 expression, decreasing angiotensin-2 metabolism. In children a reduced expression of ACE-2 receptor in upper airways may be protective against COVID-19, leading to less severe disease (17) .

Sepsis-like presentation in neonates, already reported in literature (18, 19) , can be explained by the characteristics of immunity in the first phases of life. Infants present an immature B lymphocyte and Th1 and Th2 response, but harbor a high level of Tregs. The innate immune response represents the first line of protection against SARS-CoV-2, but in case of dysregulation of such response, more typical of older age, this can result in an excessive inflammation leading to a severe disease and even death (20) .

Patients with COVID-19 tend to present lymphopenia and high biomarkers of inflammation (21) . These findings are prominent in Group 2 of our study, differing significantly from Group 1. Intriguingly these groups differ also by age. The agerelated evolution of the immune system can play a role in this difference (22) .

The pathophysiology of severe COVID-19 in adults follows different phases of injury with a first phase of infection, usually characterized by direct lung damage, followed by an inflammatory reaction known as "cytokine storm, " causing a rapid clinical deterioration (23, 24) . Such condition seems to be different in children. After the onset of the epidemic worldwide, there have been several reports of increased incidence of Kawasaki-like disease cases (25, 26) . The Center for Disease Control and Prevention and the World Health Organization proposed a new diagnostic framework, called multisystemic inflammatory syndrome associated to COVID-19 in children (10, 27). The first published case series comes from our experience in the Bergamo province (26) .

After the first report of 10 cases, we analyzed 18 patients meeting the criteria for MIS-C. In this setting SARS-CoV-2 may act as a superantigen cascading macrophages and complement recruitment, leading to a sort of "cytokine storm" (23, 28, 29) . In adults, the inflammatory cascade seems to be activated in 2-3 weeks (30, 31) . All our patients with MIS-C presented in the second and third month (Figures 2, 3) of the epidemic, suggesting that activation latency in children may be longer.

Neurological symptoms associated with SARS-CoV-2 exposure have been reported in adults (32) and in children (33, 34) . Some of these symptoms appear to be the consequence of direct viral invasion of the nervous system tissue, others arise as a post viral autoimmune process, or are the result of metabolic and systemic complications due to the associated critical illness (32) . Our analysis found three patients with mixed neurological manifestations and two patients with MIS-C and meningeal signs, in the second phase of the epidemic, suggesting a post viral autoimmune process as the cause of the clinical picture.

In the described cohort almost all pediatric ages are represented but clusters are detectable in infants, toddlers and in school age. All cases presenting in infants belong to the pattern of viral sepsis, while patients with respiratory symptoms tend to be toddlers or in school age. MIS-C and neurological patients, presenting in school age, suggest a relationship between immune system maturity and autoimmune complications.

Multicenter studies confirm COVID-19 infection is differently expressed in different pediatric age groups. Infants under 1 year of age represent 29% of infected pediatric patients (7% under 1 month of age), 10% between 1 and 2 years, 11% between 2 and 5 years, 16% between 5 and 10 years and 34% over 10 years (35) . The hospitalization rate in the pediatric population is around eight per 100,000 (36) . Our Covid-19 pediatric area was the only one in a region of about 300,000 pediatric subjects, suggesting a hospitalization rate of 15 out of 100,000. This data suggests the relevance of our analysis in a period of free viral circulation with more than 50% of the population demonstrating antibodies for SARS-CoV-2 (2).

A direct comparison of our series with others is rather difficult given the small number of cases compared to other far more numerous series and substantially confirms already published data (8) . Despite this, the distinctiveness of the context allows to highlight the most frequent hospital clinical pictures in the child with their temporal distribution.

A Korean single-center study described clinical features and persistence of viral RNA in 91 infants hospitalized after detection of SARS-CoV-2, regardless of their clinical pattern.

No MIS-C cases appears in this series and symptomatic patients presented respiratory or influenza-like symptoms confirming our observation (37) . The average persistence of viral RNA oscillated between 18 and 20 days regardless of the reported symptoms confirming as a positive swab sample in our MIS-C cases was compatible with an infection of three or more weeks earlier (37) .

In conclusion, the analysis of children presenting at the first epicentre of European SARS-CoV-2 epidemic, at a time when health care measures aimed at mitigating its diffusion were not in place, allowed us to recognize a dual pattern of disease, related to a different pathophysiology of injury. The distinctive immune response that children mount against the virus seems to have paramount importance in this battle, and understanding its deepest features will probably contribute to an effective management of patients with COVID-19.

The original contributions presented in the study are included in the article/Supplementary Material further inquiries can be directed to the corresponding author/s.

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The studies involving human participants were reviewed and approved by Bergamo Ethics Committee. Written informed consent to participate in this study was provided by the participants' legal guardian/next of kin.

Infection by SARS-CoV-2, named COVID-19, spread worldwide since the end of 2019 and Bergamo was one of the most affected areas in Europe. Following the first outbreak, more than half of the population of the Bergamo province had been infected, unfortunately becoming a model of the impact of COVID-19 epidemic on people's health. COVID-19 presents different patterns of clinical presentation in adults and children. In adults, the clinical picture is dominated by interstitial pneumonia possibly complicated by cardiovascular involvement. In children the clinical presentation is mild, mostly with an influenza-like pattern; serious cases are rare and full recovery is the rule. We performed an analysis of clinical patterns of paediatric patients admitted to our unit during the first three months of the outbreak. The peculiarity of our epidemiological situation can add new insights in characteristics of SARS-CoV-2 infection in children, following a period of unmitigated viral circulation. An immunological discussion is provided to fournish possible explanations about differences with adult patterns of the disease.

All authors listed have made a substantial, direct and intellectual contribution to the work, and approved it for publication.

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.Copyright © 2021 Mazza, Di Giorgio, Martelli, Pelliccia, Pinotti, Quadri, Verdoni, Decio, Ruggeri and D'Antiga. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.