Introduction
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spread worldwide and
led to an emerging pandemic, which has affected all age groups including newborns.[1]
[2] In the beginning, it was assumed that SARS-CoV-2 causes mild respiratory symptoms
in children,[1] but in late April 2020, some reports showed a new clinical syndrome in children
resembling Kawasaki disease and toxic shock syndrome.[3]
[4] Kawasaki disease is an acute medium-vessel vasculitis that causes fever, mucus inflammatory
manifestation (e.g., strawberry tongue), skin rash, and lymphadenopathy.[5] The etiology of Kawasaki disease remains unclear, but various theories including
viral infection have been proposed.[6]
[7] Although this new syndrome seems to mimic Kawasaki disease, there are several clinical
and laboratory factors that can partly distinguish multisystem inflammatory syndrome
in children (MIS-C) from Kawasaki disease.[8]
[9]
Since MIS-C is a new condition, the benefit and efficacy of various treatments are
not fully evident yet.[9] For children with a mild presentation, only supportive care and follow-up are recommended.[10] Other cases with moderate-to-severe clinical manifestations should be admitted to
the hospital to receive appropriate treatment and to be monitored closely in case
a pediatric intensive care unit (PICU) admission is required.[11]
Various terms have been used to refer to this hyperinflammatory response in pediatrics,
including pediatric multisystem inflammatory syndrome, pediatric COVID-19 associated
inflammatory disorder, hyperinflammatory shock in children with COVID-19, “Kawashocky,”
“Coronasacki,” and MIS-C. We will use the term MIS-C for the purposes of this review.
Several children with symptoms indicating Kawasaki disease or MIS-C, according to
the criteria provided by the Center for Disease Control and Prevention (CDC), were
also referred to the hospitals affiliated to Mashhad University of Medical Sciences.
In the current article, we review and summarize several guidelines for MIS-C management.
We also render a guideline via advice from pediatric infectious disease specialists,
pediatric rheumatologists, and pediatric cardiologists on the management of MIS-C
cases in our centers.
Multisystem Inflammatory Syndrome in Children Definitions
Three MIS-C definitions put forth by CDC,[12] World Health Organization,[11] and the Royal College of Pediatrics and Child Health[10] are shown in [Table 1]. In all these definitions, the presence of persistent fever in addition to multisystem
organ involvement without other possible diagnoses is essential. Furthermore, laboratory
evidence of inflammation, SARS-CoV-2 infection confirmation, or recent exposure to
a COVID-19 case is the key element in children with MIS-C. All these three guidelines
have mentioned that children who present with manifestations resembling those of typical
(complete) or atypical (incomplete) Kawasaki disease that also meet the criterial
of MIS-C should be considered MIS-C cases. The criteria are slightly different and
these definitions may even change, following the new information that is released.
Table 1
Case definition of multisystem inflammatory syndrome in children
|
WHO
|
CDC
|
NHS The Royal College of Pediatrics and Child Health
|
|
Age
|
<19 y
|
<21 y
|
Child
|
|
Fever
|
Fever ≥ 72 h
|
Subjective persistent fever more than 24 h
or documented fever more than 38.0°C for more than 24 h
|
Persistent fever more than 38.5°C
|
|
Clinical presentation
|
Bilateral nonpurulent conjunctivitis or rash
Mucocutaneous inflammation signs (e.g., stomatitis)
GI symptoms (e.g., abdominal pain, diarrhea, or vomiting)
Hypotension or shock,
ventricular dysfunction, pericarditis, valvulitis
|
Evidence of clinical deterioration requiring hospitalization, in addition to multiorgan
dysfunction (≥2)
|
Single or multiple organ dysfunctions (e.g., cardiovascular, GI, renal, neurologic,
or dermatologic)
Supplemental oxygen requirements and low blood pressure have been reported in most
pediatrics
Other features, including GI symptoms (e.g., vomiting, abdominal pain, diarrhea),
lymphadenopathy, sore throat, cough, rash, conjunctivitis, confusion, syncope, stomatitis,
headache, respiratory symptoms, neck swelling, hand, and feet edema have been seen
in some children
|
|
Laboratory data
|
Increased inflammatory factors (e.g., procalcitonin, ESR, or CRP)
Abnormal coagulation test (INR, PT, PTT, and D-dimer)
Evidence of coronary involvement (including a high amount of NT-proBNP
/troponin or echo findings)
|
Hypoalbuminemia
Neutrophilia
Lymphocytopenia
Elevated LDH, CRP, ESR, D-dimer, fibrinogen, procalcitonin, IL-6, ferritin
|
High ferritin and D-dimer level
Abnormal fibrinogen amount
Hypoalbuminemia
Some cases present with AKI, high LDH, hypertransaminasemia, anemia, abnormal coagulation
test, low platelets, elevated IL-6, as well as IL-10, increased creatine kinase level,
high troponin, proteinuria, elevated TG
|
|
Evidence of COVID-19 infection (positive for any of the following factors)
|
Serology
|
+
|
+
|
NR
|
|
Antigen test
|
+
|
+
|
NR
|
|
RT-PCR
|
+
|
+
|
+
|
|
Exposure to COVID-19 patients
|
+
|
+
|
NR
|
|
Ruling out alternative plausible diagnoses, including other infectious causes (e.g.,
toxic shock syndromes, bacterial sepsis)
|
+
|
+
|
+
|
Abbreviations: +, reported; AKI, acute kidney injury; APTT, activated partial thromboplastin
time; COVID-19, coronavirus disease 2019; CRP, C-reactive protein; CXR, chest X-ray;
echo, echocardiography; ESR, erythrocyte sedimentation rate; GI, gastrointestinal;
IL, interleukin; LDH, lactic acid dehydrogenase; MIS-C, multisystem inflammatory syndrome
in children; NR, not reported; NT-proBNP, N-terminal proB-type natriuretic peptide;
PT, prothrombin time; PTT, partial thromboplastin time; RT-PCR, reverse transcriptase-polymerase
chain reaction; SARS-CoV-2, severe acute respiratory syndrome coronavirus 2; TG, triglycerides.
Clinical Findings
Based on reports on this syndrome, persistent fever (4–6 days) and gastrointestinal
symptoms (e.g., abdominal pain) are the common presentation in almost all children.[22] The following symptoms have occurred in at least half of the patients: rash, conjunctivitis,
mucous membrane involvement, neurological symptoms (e.g., headache), cardiac involvement,
and respiratory symptoms (e.g., tachypnea and labored breathing). Other clinical manifestations
such as sore throat, myalgia, swollen hands/feet, and lymphadenopathy have also been
seen in less than 20% of MIS-C patients.[8]
[23]
[24] The cardiac manifestations in MIS-C patients are more likely to present with cardiac
dysfunction, shock, and hypotension rather than with coronary artery abnormalities.[25]
[26] Shock was defined as tachycardia in addition to one of the following signs: decrease
peripheral pulse, cold extremity, hypotension, oliguria, capillary refill time more
than 3 seconds, or arterial blood lactate more than 2 mmol/L.[27]
Management
MIS-C is a new phenomenon and limited studies have been conducted on this subject.
Therefore, information about this syndrome, especially its management, is scarce.
Due to its resemblance to Kawasaki disease, the treatment of children with MIS-C has
been based on the management of Kawasaki disease as well as experts' opinions. The
coordination of various pediatric specialists in critical care units, infectious disease,
rheumatology, and cardiology is necessary to manage these cases. Different treatments
have been suggested by experts, but there is no evidence so far to affirm them.
The severity of the disease and its symptoms is the key element in choosing the treatment.
Prescribing medications is not recommended for children who do not have severe symptoms,
do not seem ill, and who do not need hospitalization. Therefore, the CDC emphasizes
the importance of supportive care, including fluid resuscitation and respiratory support,
along with close clinical follow-up.[28]
[29] On the other hand, children with moderate-to-severe clinical manifestations and
hemodynamic instability should be admitted to the hospital. Since the progress of
MIS-C to hypotension and critical situation may be fast, these children should be
managed in a center with PICU. The American Academy of Pediatrics,[30] Tehran Children's Medical Center Protocol,[31] and also the guideline of the Children's Hospital of Philadelphia[32] recommend paraclinical evaluations, including laboratory and imaging assessments,
to investigate potential infection and multiorgan involvement. These suggested tests
in addition to the evaluation that we recommend are presented in [Table 4]. Renal and cardiac functions, as well as respiratory and neurological status, should
carefully be monitored. It is also recommended to consider other plausible causes
in the absence of a positive PCR test or any exposure to a COVID-19-infected case.[9] The purpose of any treatment in MIS-C is to prevent life-threatening presentations
(e.g., shock) and long-term complications such as heart failure.
Table 4
Paraclinical evaluation in children with multisystem inflammatory syndrome in children
|
Laboratory evaluation
|
CBC with differential
BUN and creatinine, sodium, potassium, calcium, phosphorus, magnesium
Coagulation panel: PTT, PT, D-dimer, fibrinogen
Creatinine kinase, LDH, C3, C4
AST, ALT, bilirubin, albumin, Amylase
pro-BNP and troponin
ESR, CRP, procalcitonin, ferritin, TG
BC
UA
Nasopharyngeal swab for SARS-CoV-2 by RT-PCR
|
|
Echocardiogram
|
|
|
12-lead electrocardiogram
|
|
|
Imaging (if concerning symptoms/physical findings)
|
|
Abbreviations: ALT, alanine transaminase; AST, aspartate transaminase; BC, blood culture;
BUN, blood urea nitrogen; C3, complement component 3; CBC, complete blood count; CRP,
C-reactive protein; ESR, erythrocyte sedimentation rate; LDH, lactate dehydrogenase;
pro-BNP, pro-B-type natriuretic peptide; PT, prothrombin time; PTT, partial thromboplastin
time; RT-PCR, reverse transcriptase polymerase chain reaction; SARS-CoV-2, severe
acute respiratory syndrome coronavirus 2; TG, triglycerides; UA, urinalysis.
Different treatment protocols have been presented, but their efficacy has been controversial.
These treatment options have been established based on specific clinical manifestations,
the management of similar preexisting conditions such as Kawasaki disease, and experts'
opinions. The pediatric specialists in our center arranged a guideline, considering
the existing literature and worldwide evidence and their experience in managing MIS-C
and other similar cases, since the beginning of the COVID-19 pandemic. These data
are described in detail in [Tables 5] and [6]. Possible drug interactions should be considered before administering these agents.
Table 5
Suggested doses and other data for agents in the treatment of multisystem inflammatory
syndrome in children
|
Drug
|
Indication
|
Mechanism
|
Dosage
|
Administration
|
Adverse effects
|
|
Remdesivir
|
SpO2 < 94% in a child with a positive PCR test and evidence of active infection
|
Viral RNA polymerase inhibition
|
Not on invasivemechanical ventilation:
(1) Patients more than 40 kg: 200 mg on day 1 followed by 100 mg on days 2–5
(2) Patients less than 40 kg:5 mg/kg on day 1 followed by 2.5 mg/kg on days 2 to 5
Patients without any improvement after 5 d of treatment and patients on mechanical
ventilation or ECMO: duration of therapy should be extended to 10 d
|
IV infusion over 30–120 min
|
Acute kidney injury (not recommended for patients with GFR less than 30 mL/min/1.73 m2)
Transaminase elevation (not recommended for patients with aminotransferase 5 times
the upper limit of normal)
GI symptoms (e.g., nausea, vomiting)
|
|
IVIG
|
Kawasaki disease features
Shock
Cardiac involvement
Admission to PICU
|
Blocking the immune complex activation
|
2 g/kg (max. 60 g)
|
IV infusion over 12 h
(over 24–36 h in patients with shock)
|
Thrombosis
Heart failure
|
|
Aspirin
|
Patients with Kawasaki like features
|
Anti-platelet
|
30–50 mg/kg
|
Oral
|
Not recommended for patients who are receiving Enoxaparin
|
|
Enoxaparin
|
All patients
|
Anti-thrombin
|
1 mg/kg B.I.D.
(2 mg/kg in patients with symptoms of thrombosis)
|
|
Bleeding (not recommended for patients with PLT <50,000 or fibrinogen >100 or active
bleeding)
|
|
Methylprednisolone
|
Severe or refractory shock
Kawasaki disease like feature in addition to IVIG resistance
Persistent fever despite IVIG administration
|
Immunomodulator
|
1–3 mg/kg/day B.I.D.
20–30 mg/kg for patients who presented with shock or are irresponsive to IVIG administration
(max. 1 g/dose). It can be repeated three times in cases with shock and five times
in patients with encephalopathy.
|
IV
(Important note: only methylprednisolone succinate should be used in IV administration)
|
Exacerbation of lymphopeniaHTN
|
|
Tocilizumab
|
Refractory KD
|
IL-6 inhibitor
|
Infants: 8 mg/kg/dose (max. 800 mg/dose)
Children:
<30 kg: 12 mg/kg/dose > 30 kg: 8 mg/kg/dose
Note: In all patients, an additional dose can be repeated 12–24 h after the first
administration
|
IV (over 60 min)
|
Increased lipid profile
Volume retention
HTN
Hypersensitivity
|
Abbreviations: ECMO, extracorporeal membrane oxygenation; GFR, glomerular filtration
rate; HTN, hypertension; IVIG, intravenous immunoglobulin; KD, Kawasaki disease; PCR,
polymerase chain reaction; PICU, pediatric intensive care unit; PLT, platelets.
Table 6
Supplements that our center recommends for children with multisystem inflammatory
syndrome in children
|
Vitamin C (not recommended for patients with diabetes mellitus or G6PD deficiency)
|
50–200 mg/kg (IV)
|
|
Zinc
|
5 times of daily requirement
|
|
Thiamin
|
100–300 mg/day
|
|
Vitamin D
|
2,000–3,000 unit/day
|
Antipyretic therapy is an important step of supportive care. For children with fever
(more than 38.5°C), paracetamol at a dosage of 10 to 15 mg/kg every 4 to 6 hours is
preferred to ibuprofen, especially in dehydrated children (diarrhea or vomiting).[28]
Children who present with shock should immediately be resuscitated with crystalloid
fluids. Most of these patients are resistant to volume expansion, so the use of vasopressor
is therefore necessary. The first-line agent is epinephrine, and if the shock persists,
norepinephrine is also administered. In case of severe myocardial involvement, dobutamine
has also been suggested.[27]
[33] It is also very important to monitor for volume overload. The symptoms and laboratory
data (e.g., increased neutrophilia or C-reactive protein) make it hard to rule out
a bacterial infection. Therefore, empirical broad-spectrum antibiotics should be initiated
in patients with severe clinical presentation and should be stopped once the patient's
condition improves and an infection has been ruled out. Some of these children may
need intubation or even extracorporeal membrane oxygenation.[27]
[34]
[35]
Kawasaki Disease Like Features
As mentioned above, up to 50% of MIS-C cases fulfill the diagnostic criteria of Kawasaki
disease. Thus, the standard protocol for the management of Kawasaki disease was performed
in most of the reported patients. Some children with MIS-C also present with shock;
therefore, supportive care is critical in these cases.[36]
[37] Both the American Academy of Pediatrics[30] and the American College of Rheumatology guideline[38] suggest that intravenous immunoglobulin (IVIG) at a dose of 2 g/kg, which prevents
cardiac dysfunction in Kawasaki disease, would be beneficial in these patients. The
fluid status and cardiac functions should be evaluated before IVIG administration.
If they are not normal, the IVIG infusion rate should be reduced or the administration
should be delayed.[39] The immunomodulatory agents (e.g., corticosteroids and tocilizumab) that showed
beneficial outcomes in similar diseases were also administered for children with this
syndrome. However, there is no evidence that which drug or what dose is optimal, which
necessitates the establishment of randomized clinical trials to investigate the effectiveness
of these therapies.[27]
[40]
[41]
Cardiac Monitoring
One of the life-threatening organ involvements in MIS-C is cardiac involvement. Many
cases present with a high troponin level (∼80%) or brain natriuretic peptide (∼84%),
which indicates myocardial injury and consequently arrhythmia and cardiac dysfunction.[8]
[15]
[27]
[34]
[35] Both the American Academy of Pediatrics and the Children's Hospital of Philadelphia
Guideline advise that children with an abnormal ECG, echocardiogram, or high troponin
should be referred to a pediatric cardiologist.[30]
[32]
Coronary artery dilation and aneurysm have been reported in children with severe MIS-C,
but they have also been seen in children with only fever and mild inflammation. Cardiac
evaluation and follow-up are therefore necessary for all patients.[8] It is essential to perform echocardiography for all cases and daily electrocardiogram
(ECG) monitoring for patients with severe clinical presentation.
The American College of Rheumatology guideline for MIS-C recommends repeating echocardiography
at least 1 to 2 weeks and also 4 to 6 weeks after the onset of the syndrome.[38] It should also be repeated 1 year after the onset of MIS-C for the children who
had cardiac involvement detected during the previous echocardiograms. Patients with
left ventricular (LV) dysfunction should have more echocardiograms. This guideline
also recommends performing an MRI at 2 to 6 months after the diagnosis of MIS-C in
patients with moderate-to-severe cardiac dysfunction to check for any scarring or
fibrosis. An ECG should also be done in each follow-up session. In case of any conduction
abnormalities, Holter monitoring is essential.
Coagulopathy Prevention
As coagulopathy is an important issue in dealing with COVID-19-infected cases, anticoagulant
therapy, including heparin or low molecular weight heparin (LMWH), is recommended
in these patients.[8]
[27] On the other hand, many children with MIS-C have a high D-dimer level. The American
College of Rheumatology and the American Academy of Pediatrics suggest that aspirin
at a dose of 3 to 5 mg/kg/day (up to 81 mg per day) is favorable in MIS-C cases with
Kawasaki disease features, coronary artery aneurysm, or thrombocytosis.[30]
[38] In children with coronary artery z-score > 10.0, enoxaparin or warfarin will be
more beneficial. However, the Italian Society of Pediatric Infectious Diseases does
not recommend prophylaxis with enoxaparin in children, except for patients who are
at higher risk for thrombotic complications.[28] The suggested dose for enoxaparin by this guideline is 150 to 300 unit/kg/day in
neonates and 100 to 200 unit/kg/day for older pediatric patients.[28]
The Tehran Children's Medical Center Protocol[31] suggests using aspirin at a dose of 30–50 mg/kg/day (the classic Kawasaki treatment)
in patients who fulfill clinical criteria for complete Kawasaki disease with confirmed
laboratory results. If the patient responds to the medication, the treatment is suggested
to continue at a dose of 3 to 5 mg/kg/day plus echocardiography after 2 weeks and
2 months after diagnosis.
The follow-up should be continued via echocardiography to rule out coronary artery
aneurysms. The choice of agent, dosage, and duration should be consulted with a pediatric
hematologist.[42]
Antivirals
Remdesivir is an intravenous nucleotide prodrug that prevents RNA polymerization of
the virus and consequently reduces the replication of viral RNA. It has been shown
that remdesivir reduces the duration of SARS-CoV-2 infection in adults. However, most
children with MIS-C are not in the acute phase of the disease; therefore, the role
of this agent in the management of MIS-C is limited. The guidelines by both the Italian
Society of Pediatric Infectious Diseases[28] and the American Pediatric Infectious Diseases Society[43] suggest remdesivir as a preferred antiviral for COVID-19 treatment. In children
who were tested positive for PCR and present with severe symptoms, the use of remdesivir
could be effective.[44] The protocol of remdesivir administration is summarized in [Table 5], and we also recommend the same protocol.[45]
Lopinavir and ritonavir are other antivirals that are recommended for severe cases
by the Italian Society of Pediatric Infectious Diseases.[28] These agents are the protease inhibitors that had been used in China for the treatment
of pneumonia following the COVID-19 infection.[46] These drugs are, however, contraindicated in premature neonates and neonates younger
than 14 days. The recommended dose for children older than 12 months is 16.4 mg/kg
twice a day.
Corticosteroids
Steroids decrease the occurrence risk of coronary artery disorder in children with
Kawasaki disease who are resistant to IVIG.[47]
[48] The American College of Rheumatology reported that steroids at a dose of 1 to 2 mg/kg/day
are sufficient in many children with MIS-C. It should be noted that some cases with
shock required a high dose of intravenous (IV) glucocorticoids.[38] Furthermore, this guideline and also the American Academy of Pediatrics recommend
tapering the dose of steroids over 2 to 3 weeks, regardless of the dosage, to prevent
rebound inflammation.[30]
The RECOVERY trial (a large randomized clinical trial) indicated that low-to-moderate
doses of dexamethasone are beneficial in patients with severe illness who are on mechanical
ventilation. New findings showed that a low dose of dexamethasone may suppress the
immune response and reduce the subsequent inflammatory diseases.[44]
[49]
[50]
The Italian Society of Pediatric Infectious Diseases recommends methylprednisolone
at a dose of 1 to 2 mg/kg/day (maximum 80 mg) for 2 to 5 days, in children with worsening
pulmonary function and a high level of inflammatory indicators in the laboratory data.[28] Moreover, in severe cases, the administration of high-dose dexamethasone (30 mg/kg)
should be considered. This guideline also recommends considering dexamethasone at
a dose of 0.2 to 0.4 mg/kg (maximum 6 mg) in patients who require supplemental oxygen
therapy.
Biologic Drugs
The American College of Rheumatology guideline[38] recommends using immunomodulatory agents in severe COVID-19 infected cases, patients
with shock or acute respiratory distress syndrome (ARDS), or children with signs of
hyperinflammation in the laboratory data, including a high level of LDH (normal range:
140–280 units per liter), ferritin (newborns: 25–200 ng/mL, less than 1 month: 200–600 ng,
2 to 5 months: 50–200 ng, 6 months to 15 years: 7–142 ng), D-dimer (normal range:
less than 250 ng/mL), IL-1 (normal range: 0–5 pg/mL), IL-6 (normal range: lower than
6.6 pg/mL), and CRP (normal range: 0–10 mg/L). However, some contraindications declared
by the Italian Society of Pediatric Infectious Diseases[28] are (1) transaminases > 5 times the normal level, (2) being allergic to these drugs,
(3) severe neutropenia, (4) bowel perforation or diverticulitis, and (5) platelets
<50,000 count.
The American College of Rheumatology guideline suggests that anakinra (an IL-1 receptor
inhibitor) at a dose of 10 mg/kg/day might be beneficial in Kawasaki disease patients
with a severe condition who are irresponsive to IVIG.[38] An ongoing clinical trial (KAWAKINRA, ClinicalTrials.gov: NCT02390596) showed favorable
results when using anakinra in patients with severe manifestations. The preferred
dosage of anakinra for patients with cytokine storm syndromes by the panelists of
the Italian Society of Pediatric Infectious Disease is 8 to 10 mg/kg/day in two or
four divided IV doses for 2 to 3 days. The D-dimer and plasma level of IL-6 should
be evaluated after 48 to 72 hours.[28]
Tocilizumab is an IL-6 receptor inhibitor that is used for juvenile idiopathic arthritis.
This illness mimics Kawasaki disease in some manifestations, such as rash, arthritis,
fever, and high ferritin level. This agent has shown promising results in the management
of COVID-19 in adults, and an ongoing clinical trial (CORIMUNO-19, ClinicalTrials.gov:
NCT04331808) tested this drug, and the results were encouraging.[51]
[52] The suggested dosage by the Italian Society of Pediatric Infectious Diseases guideline
is 10 to 12 mg/kg for patients <30 kg and 8 mg/kg for >30 kg (maximum 800 mg).[28]
When to Discharge?
Patients who have been afebrile for at least 24 hours can be discharged from the hospital
once they are well hydrated and do not require supplemental oxygen. Furthermore, their
laboratory data and vital signs should show an improving trend.[42]
