key: cord-0883682-4mp1iu55 authors: Verdoni, Lucio; Mazza, Angelo; Gervasoni, Annalisa; Martelli, Laura; Ruggeri, Maurizio; Ciuffreda, Matteo; Bonanomi, Ezio; D'Antiga, Lorenzo title: An outbreak of severe Kawasaki-like disease at the Italian epicentre of the SARS-CoV-2 epidemic: an observational cohort study date: 2020-05-13 journal: Lancet DOI: 10.1016/s0140-6736(20)31103-x sha: 372d732c40c958bf2b2c7b0712d27e57f092d6d8 doc_id: 883682 cord_uid: 4mp1iu55 BACKGROUND: The Bergamo province, which is extensively affected by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) epidemic, is a natural observatory of virus manifestations in the general population. In the past month we recorded an outbreak of Kawasaki disease; we aimed to evaluate incidence and features of patients with Kawasaki-like disease diagnosed during the SARS-CoV-2 epidemic. METHODS: All patients diagnosed with a Kawasaki-like disease at our centre in the past 5 years were divided according to symptomatic presentation before (group 1) or after (group 2) the beginning of the SARS-CoV-2 epidemic. Kawasaki- like presentations were managed as Kawasaki disease according to the American Heart Association indications. Kawasaki disease shock syndrome (KDSS) was defined by presence of circulatory dysfunction, and macrophage activation syndrome (MAS) by the Paediatric Rheumatology International Trials Organisation criteria. Current or previous infection was sought by reverse-transcriptase quantitative PCR in nasopharyngeal and oropharyngeal swabs, and by serological qualitative test detecting SARS-CoV-2 IgM and IgG, respectively. FINDINGS: Group 1 comprised 19 patients (seven boys, 12 girls; aged 3·0 years [SD 2·5]) diagnosed between Jan 1, 2015, and Feb 17, 2020. Group 2 included ten patients (seven boys, three girls; aged 7·5 years [SD 3·5]) diagnosed between Feb 18 and April 20, 2020; eight of ten were positive for IgG or IgM, or both. The two groups differed in disease incidence (group 1 vs group 2, 0·3 vs ten per month), mean age (3·0 vs 7·5 years), cardiac involvement (two of 19 vs six of ten), KDSS (zero of 19 vs five of ten), MAS (zero of 19 vs five of ten), and need for adjunctive steroid treatment (three of 19 vs eight of ten; all p<0·01). INTERPRETATION: In the past month we found a 30-fold increased incidence of Kawasaki-like disease. Children diagnosed after the SARS-CoV-2 epidemic began showed evidence of immune response to the virus, were older, had a higher rate of cardiac involvement, and features of MAS. The SARS-CoV-2 epidemic was associated with high incidence of a severe form of Kawasaki disease. A similar outbreak of Kawasaki-like disease is expected in countries involved in the SARS-CoV-2 epidemic. FUNDING: None. The epidemic of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), causing COVID-19, has rapidly spread worldwide. Italy was the first European country to be affected, with the outbreak estimated to have started in February, 2020. Currently, Italy has reported 132 547 COVID-19-positive cases, 51 534 of which are in Lombardy. 1 It is estimated that at least 10% of the Italian population-ie, approximately 1 million people-have been exposed to the virus. 2 The city of Bergamo has the highest rate of infections and deaths in Italy, which makes the province of Bergamo a natural epidemiological setting where SARS-CoV-2 infections appeared earlier and were more evident. In adults, COVID-19 is typically characterised by severe interstitial pneumonia and hyperactivation of the inflammatory cascade. 3, 4 In children, the respiratory involvement appears to have a more benign course, with almost no fatalities reported in this age group. [5] [6] [7] Nonetheless, the respiratory tract seems not to be the only system susceptible to SARS-CoV-2 infection. 8 Increasing evidence suggests that tissue damage in COVID-19 is mostly mediated by the host innate immunity. 9, 10 This disease is characterised by a cytokine storm resembling that of macrophage activation seen in viral-induced haemophagocytic lymphohistiocytosis. 11 Kawasaki disease is an acute and usually self-limiting vasculitis of the medium calibre vessels, which almost exclusively affects children. 12, 13 In the acute phase of the disease, patients with Kawasaki disease might have haemo dynamic instability, a condition known as Kawasaki disease shock syndrome (KDSS). 14 Other patients with Kawasaki disease might fulfil the criteria of macrophage activation syndrome (MAS), resembling secondary haemophagocytic lymphohistiocytosis. 15 The cause of Kawasaki disease remains unknown; however, earlier evidence 16 suggests that an infectious agent triggers a cascade that causes the illness. The aim of this study was to describe the incidence and features of new cases of Kawasaki-like presentations admitted to our unit during the SARS-CoV-2 epidemic. We retrospectively reviewed the notes of patients diagnosed with Kawasaki disease admitted to the General Paediatric Unit of Hospital Papa Giovanni XXIII (Bergamo, Italy), between Jan 1, 2015, and April 20, 2020. Our unit is a tertiary paediatric referral centre with approximately 1300 paediatric admissions per year, serving a province of approximately 1 million people, and hosting the largest Italian paediatric liver transplant programme and the largest paediatric intensive care unit of northern Italy (16 beds). In the general paediatric unit, there are paediatric consultants fully trained in all paediatric subspecialties. Patients with Kawasaki-like presentations were defined according to the 2017 criteria of the American Heart Association, including both the classic type (fever for ≥5 days plus four or more clinical criteria, including bilateral bulbar non-exudative conjunctivitis, changes of the lips or oral cavity, non-suppurative laterocervical lymphadenopathy, polymorphic rash, erythema of the palms and soles, firm induration of the hands or feet, or both) and incomplete types. In incomplete types (fever for ≥5 days plus two or three of the aforementioned clinical criteria), the values of erythrocyte sedimentation rate (ESR) or C-reactive protein (CRP), or both, were taken as an additional diagnostic criterion in association with the presence of anaemia, thrombocytosis after 7 days of fever, hypoalbuminaemia, hypertrans aminasaemia, leucocytosis, sterile pyuria, or an echo cardiogram showing coronary aneurysms or cardiac dysfunction (ie, left ventricular function depression, mitral valve regurgitation, or pericardial effusion). 17 All patients were diagnosed and managed by LV, who has been in charge of paediatric rheumatology in the Paediatric Department since 2010. KDSS was defined as Kawasaki disease accompanied by systolic arterial hypotension, a decrease from basal systolic blood pressure of at least 20%, or the appearance of signs of peripheral hypoperfusion. 14 Ejection fraction, and concentrations of troponin I and pro-B-type natriuretic peptide (proBNP) were measured and used as indirect signs of myocarditis and heart failure. MAS was defined using the Paediatric Rheumatology International Trials Organisation criteria 18 for the classification of MAS in systemic juvenile idiopathic arthritis. The MAS criteria are validated for systemic juvenile idiopathic arthritis, but they are commonly used for other systemic autoinflammatory diseases such as Kawasaki disease and paediatric systemic lupus erythematosus. 19 We divided the patients in two groups according to the date of presentation: group 1, presenting during the 5 years preceding the local SARS-CoV-2 epidemic (ie, Jan 1, 2015, to Feb 17, 2020); and group 2, presenting thereafter (ie, Feb 18 to April 20, 2020). Data were obtained from hospital medical records, and included demographic data, presenting symptoms and history of previous treatments, contact with confirmed or suspected cases of COVID-19, vital signs, and laboratory data, including white blood cell count, lymphocyte count, ESR, CRP, procalcitonin, ferritin, fibrinogen, proBNP, Evidence before this study Kawasaki disease is an acute self-limiting vasculitis with specific predilection for the coronary arteries that affects previously healthy young infants and children. Despite half a century having passed since Kawasaki disease was first reported in Japan, the cause of this condition remains unknown. We did a PubMed database search to identify studies investigating the cause and pathogenesis of Kawasaki disease using the terms "Kawasaki disease", "etiology", "pathogenesis", "intravenous immunoglobulin", "corticosteroids", "macrophage activation syndrome (MAS)", and "KD shock syndrome". All relevant articles were evaluated. The most accepted pathogenetic hypothesis supports an aberrant response of the immune system to one or more unidentified pathogens in genetically predisposed subjects. An infectious trigger, however, has not been identified. Shortly after the spread of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) to our region (Bergamo, Italy), we found a 30-fold increased incidence of Kawasaki disease. Children diagnosed after the SARS-CoV-2 epidemic began showed evidence of immune response to the virus, were older, had a higher rate of cardiac involvement, and features of MAS. We therefore showed that SARS-CoV-2 might cause a severe form of Kawasaki-like disease. Outbreaks of Kawasaki-like disease might occur in countries affected by the SARS-CoV-2 pandemic, and might present outside the classic Kawasaki disease phenotype. This condition might be serious and requires prompt and more aggressive management. Future research on the cause of Kawasaki disease and similar syndromes should focus on immune responses to viral triggers. troponin I, natural killer (NK) activity, and concentrations of interleukin 6 (IL-6). Electrocardiogram and echocardiogram were done in all children. Patients and caregivers had nasopharyngeal and oropharyngeal swab sampling, testing SARS-CoV-2 nucleic acid using reverse-transcriptase quantitative PCR assay; patients with a positive nasopharyngeal and oropharyngeal swab sampling test were considered confirmed cases of SARS-CoV-2 infection. The patients diagnosed more recently had a test for the qualitative detection of SARS-CoV-2 antibodies (IgM and IgG) through a lateral flow chromatographic immunoassay (NADAL COVID-19 IgG/IgM Test, Nal Von Minden, Moers, Germany). Positivity for IgM or IgG, or both, was considered consistent with an earlier infection with SARS-CoV-2. Risk of resistance to intravenous immunoglobulin treatment was ascertained according to the Kobayashi score. 20 All patients were administered intravenous immuno globulin at 2 g/kg. According to the RAISE study, 20 based on risk stratification, patients were also treated with aspirin at 50-80 mg/kg per day (Kobayashi score <5) for 5 days or aspirin at 30 mg/kg per day plus methylprednisolone at 2 mg/kg per day for 5 days (Kobayashi score ≥5), followed by a tapering of methylprednisolone over 2 weeks. Aspirin was maintained until 48 h after defervescence, and then continued at an antiplatelet dose of 3-5 mg/kg per day for 8 weeks. 20 The schedule for patients at risk of intravenous immunglobulin resistance was adopted also in patients with KDSS or MAS. Response to treatment was defined as the normalisation of vital signs, CRP, and blood tests, and the resolution of symptoms and signs. The Student's t test, the χ² method, and Fisher's exact test were done when appropriate for statistical analysis to compare continuous and categorical variables. A p value of <0·05 was chosen as cutoff for significance. Data were analysed with SPSS (version 20.0) and GraphPad Prism (version 5.00 for Mac). The study was approved by the Bergamo Ethics Committee (registration number 37/20, 25/03/2020). There was no funding source for this study. The corresponding author had full access to all the data in the study and had final responsibility for the decision to submit for publication. Between Feb 18 and April 20, 2020, ten patients (aged 7·5 years [SD 3·5]; seven boys, three girls), were diagnosed with Kawasaki disease (incidence ten per month), and comprised group 2. Admission to hospital occurred, on average, on day 6 of fever (range 4-8). Five (50%) patients presented with a classic form of the disease, and five (50%) presented with an incomplete form. Patients presenting with the classic form had non-exudative conjunctivitis, hand and feet anomalies (ie, erythema or firm induration, or both), and polymorphic rash. Four (80%) of five patients had associated changes of the lips or oral cavity, or both; patient 7 also had laterocervical lymphadenopathy (table 1) . In group 2, five (50%) of ten patients were diagnosed with incomplete Kawasaki disease, presenting with three or fewer clinical criteria associated with additional laboratory criteria (n=1) or an abnormal echocardiography (n=4). Two (20%) patients had bulbar non-exudative conjunctivitis; changes of the lips or oral cavity, or both; and polymorphic rash. One (10%) patient had only bulbar non-exudative conjunctivitis and polymorphic rash. In two (20%) patients, the echocardiography detected a left coronary aneurysm (>4 mm), reduced ejection fraction (48% and 40%), and mitral valve regurgitation; patient 1 also had pericardial effusion. Patient 2 met the diagnosis with four additional laboratory criteria (ie, hypoalbuminaemia, hypertrans aminasaemia, leucocytosis, and sterile pyuria). Patients 4 and 5 diagnosed with incomplete Kawasaki disease, presented with non-exudative conjunctivitis associated with changes in the lips and oral cavity (patient 4), or polymorphic rash (patient 5). In these patients, echocardiography revealed left ventricular function depression, mitral valve regurgitation, and pericardial effusion; they also required inotropic support. Patient 4 had an underlying diagnosis of congenital adrenal hyperplasia. Chest x-ray, done in all patients in group 2, was positive in five (50%) patients for minimal mono or bilateral infiltrates. Patients 1 and 10 had a chest CT and a confirmed bibasilar pulmonary thickening. Patients 2 and 7, who had meningeal signs, had an electroencephalogram that showed a slow wave pattern; patient 7 had a lumbar puncture revealing normal cerebrospinal fluid and the absence of SARS-CoV-2 in the cerebrospinal fluid. Five (50%) of ten patients in group 2 met the criteria for KDSS because of hypotension and clinical signs of hypoperfusion. Two (20%) patients had diarrhoea and meningeal signs, four (40%) had only diarrhoea, and two (20%) had only meningeal signs ( (6) Yes (6) No (4) Yes (6) Yes (6) No (3) No (2) Yes (6) Yes (6) Yes (6) <12 Nasopharyngeal and oropharyngeal swab sampling for SARS-CoV-2, available from Feb 24, 2020, was positive in two (20%) of ten patients in group 2 (table 1). All patients were tested at least twice. Serology for SARS-CoV-2 antibodies, available from April 13, 2020, was investigated in all patients in group 2; eight (80%) of ten patients were IgG positive, and three were also IgM positive. Patient 6, who had a negative serology, was tested shortly after the infusion of high-dose intravenous immunoglobulin (table 1) . On April 14, 2020, 31 health-care personnel from the Paediatric Department, Hospital Papa Giovanni XXIII (Bergamo, Italy) had serology testing. Nine (29%) of 31 were IgG positive, and three (10%) were also IgM positive, corresponding to the expected rate of exposure of our local heath-care personnel to SARS-CoV-2 infection. In addition, two patients from group 1 diagnosed before the start of the epidemic were contacted and tested for SARS-CoV-2 antibodies, and both were negative. To date, all patients in group 2 have been discharged, treatment with aspirin at an antiplatelet dose is ongoing, and a follow-up echocardiogram is scheduled at 8 weeks. From Jan 1, 2015, to the start of the epidemic on Feb 17, 2020, 19 children were diagnosed with Kawasaki disease (incidence 0·3 per month; mean age 3 years [SD 2·5]; seven boys, 12 girls); these patients comprised group 1. Admission to hospital occurred, on average, on day 6 of fever (range 4-11 days). 13 (68%) of 19 patients presented with a classic form of the disease, and six (31%) of 19 with an incomplete form. None of the patients had hypotension, clinical signs of hypoperfusion, or other atypical symptoms. Laboratory criteria predicted intravenous immunoglobulin resistance in two (10%) of 19 patients. MAS was not diagnosed in any of the patients. A full comparison of clinical and biochemical characteristics of the two groups is provided in table 2. All patients included had a favourable outcome. Patients in group 1 had concluded their treatment and follow-up period, and recovered completely with no residual coronary artery aneurisms. Group 1 comprised 19 patients diagnosed over 5 years, whereas group 2 included ten patients diagnosed over 1 month (incidence 0·3 per month vs ten per month; figure) . To rule out the possible effect of number of referrals to the emergency department in different periods, we calculated incidence corrected for number of patients seen at the emergency department. We found that in the past 5 years, from January, 2015, to December, 2019, 98 572 patients had been evaluated, with a mean of 1642 (SD 280) per month, compared with 283 patients per month during the study periodapproximately six-fold lower. With these figures, the incidence of Kawasaki disease in group 1 was 0·019% (95% CI -0·002 to 0·0019), compared with 3·5% (-3·5 to 3·6) in group 2 (odds ratio 184; p<0·0001; figure). To rule out the possible effect of a change in the geographical catchment area in the prepandemic (group 1) versus the pandemic (group 2) period, we reviewed the place of residence of all our patients with Kawasaki disease and drew a referral map, showing that all but one came from the Bergamo province (appendix p 1). The average age at onset was 3·0 years (SD 2·5) in group 1 versus 7·5 years (3·5) in group 2 (p=0·0003). In group 1, 14 of 19 patients were white, versus eight of ten patients in group 2. The mean body-mass index of patients in group 1 was 15·93 kg/m² (SD 1·72) versus 19·11 kg/m² (SD 3·21) in group 2 (p=0·0016). Two patients tested in group 1 had a negative serology for SARS-CoV-2 versus eight of ten positive patients in group 2 (one of the two negative patients was tested after high-dose intravenous immunoglobulin); five (50%) of ten patients had been in contact with confirmed COVID-19 cases. Group 2 had a significantly lower white cell count, lymphocyte count, and platelet count when compared with group 1 (table 2). Group 2 also differed significantly from group 1 for increased rate of markers of severity. An abnormal echocardiogram was recorded in six (60%) of ten patients of group 2 versus two (10%) of 19 patients in group 1 (p=0·0089); fulfilment of criteria for KDSS and MAS was found in five (50%) of ten patients in group 2, and in none of the patients in group 1 (p=0·021). Seven (70%) patients in group 2 met the criteria for a Kobayashi score of 5 or more, compared with two (10%) of 19 patients in group 1 (p=0·0021). Adjunctive steroid treatment was required in four (16%) of 19 patients in group 1 versus eight (80%) of ten patients in group 2 (p=0·0045; table 2). Despite half a century having passed since Tomisaku Kawasaki first reported his 50 cases in Japan, 12 the cause of Kawasaki disease remains unknown. The most accepted hypothesis supports an aberrant response of the immune system to one or more unidentified pathogens in genetically predisposed patients; 21-23 however, the search for the infectious triggers has been disappointing. 24 In Japan, during three epidemics recorded in 1979, 1982, and 1986 , the highest Kawasaki disease incidence was seen in January, potentially suggesting that factors during winter months may trigger Kawasaki disease. 25, 26 In 2010, the incidence of Kawasaki disease in Japan was 239·6 per 100 000 children younger than 5 years, compared with 20·8 per 100 000 in the USA. 27 A 2-year retrospective survey done in northeastern Italy calculated an incidence of 14·7 cases per 100 000 children younger than 5 years. 28 We report a high number of Kawasaki-like disease cases in the Bergamo province following the SARS-CoV-2 epidemic, with a monthly incidence that is at least 30 times greater than the monthly incidence of the previous 5 years, and has a clear starting point after the first case of COVID-19 was diagnosed in our area. Group 2, diagnosed after SARS-CoV-2 appeared, showed evidence of seroconversion to the virus in the majority of patients. A serological test was not done. This report was followed by commentaries expressing a mixed sense of interest and scepticism. 30 The arguments against this association were expressed by a group from Japan, who did a retrospective study [31] [32] [33] on nasopharyngeal swab samples from 19 children with Kawasaki disease and 208 controls with respiratory tract infections, and found RNA sequences of HCoV-NH in five (2%) of 208 controls versus zero of 19 children with Kawasaki disease. Another group from Japan explored the association between two different coronaviruses (HCoV-NL63 and HCoV-229E) and Kawasaki disease by serological tests. The immunofluorescence assay detected no difference in HCoV-NL63 antibody positivity between patients and controls, whereas HCoV-229E antibody positivity was higher in patients with Kawasaki disease. 34 Given the pathogenesis of the disease, serology testing seems a more reliable tool than RT-PCR in detecting the cause of infection. This suggests that the coronavirus family might represent one of the triggers of Kawasaki disease, SARS-CoV-2 being a particularly virulent strain able to elicit a powerful immune response in the host. In this study, the clinical and biochemical features of patients with Kawasaki disease diagnosed during the COVID-19 pandemic appeared to differ from our historical cohort of patients; therefore, we have classified these patients as Kawasaki-like disease. From a clinical perspective, they were older, had respiratory and gastrointestinal involvement, meningeal signs, and signs of cardiovascular involvement. From a biochemical perspective, they had leucopenia with marked lymphopenia, thrombocytopenia, and increased ferritin, as well as markers of myocarditis. Similar clinical features are shared by patients with COVID-19. 4 Additionally, these patients had a more severe disease course, with resistance to intravenous immunoglobulin and need of adjunctive steroids, biochemical evidence of MAS, and clinical signs in keeping with KDSS. The proinflammatory effect of SARS-CoV-2 has been reported in adults with the most severe respiratory complications of COVID-19. 35, 36 Many of these patients have a constellation of features classified under the term cytokine storm, such as fever, lymphopenia, elevated transaminases, lactate dehydrogenase, D-dimer, and ferritin, in keeping with MAS. 11, 35, 37 Likewise, MAS is a form of cytokine storm, and might affect patients with Kawasaki disease. 9, 15 All these elements supported the need to start adjunctive steroids. In our experience, this treatment is effective and safe, and should be considered by physicians treating patients with Kawasaki-like presentations in the context of the COVID-19 pandemic. Evidence of contact with the virus was confirmed by the presence of antibodies against SARS-CoV-2 in eight of ten patients in group 2. It is possible that in the remaining two patients, who both had a negative serology, con founding factors played a role. One patient was tested just after an infusion of high-dose immunoglobulins. Additionally, qualitative antibody testing is reported to have a sensitivity of 95% and a specificity of 85-90% when compared with PCR test by nasal swab. It is also possible that this patient represents an usual presentation of Kawasaki disease outside of SARS-CoV-2 epidemic, as seen in previous years. Only two patients in group 2 presented a positive nasopharyngeal and oropharyngeal swab sampling for SARS-CoV-2. This finding and the positivity of IgG antibodies suggest a late onset of the disease compared with the primary infection, due to the host immune response. This might be the reason why, in the past, no active viral infection could be shown in this disease. All these results and considerations support the hypothesis that the immune response to SARS-CoV-2 is responsible for a Kawasaki-like disease in susceptible patients. We believe these findings have important implications for public health. The association between SARS-CoV-2 and Kawasaki-like disease should be taken into account when it comes to considering social reintegration policies for the paediatric population. However, the Kawasaki-like disease described here remains a rare condition, probably affecting no more than one in 1000 children exposed to SARS-CoV-2. This estimate is based on the limited data from the case series in this region. This study has the limitations of a relatively small case series, requiring confirmation in larger groups. Genetic studies investigating the susceptibility of patients developing this disease to the triggering effect of SARS-CoV-2 should be done. Nonetheless, we reported a strong association between an outbreak of Kawasaki-like disease and the SARS-CoV-2 epidemic in the Bergamo province of Italy. Patients diagnosed with Kawasaki-like disease after the viral spreading revealed a severe course, including KDSS and MAS, and required adjunctive steroid treatment. A similar outbreak of Kawasaki-like disease is expected in countries affected by the SARS-CoV-2 pandemic. LV and LD'A made substantial contributions to the conception or design of the work. LV and AM drafted the work. LV, AM, AG, LM, MR, MC, EB, and LD'A gave final approval for the Article to be published. LV, AM, AG, LM, MR, MC, EB, and LD'A agreed to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved. AM, AG, LM, MR, MC, and EB acquired, analysed, or interpreted data for the Article. AG, LM, MR, MC, and EB revised the Article critically for important intellectual content. LD'A prepared the final draft and critically revised the Article for important intellectual content. We declare no competing interests and no financial support for this study. 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