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Multisystem inflammatory syndrome in children

Multisystem inflammatory syndrome in children (MIS-C) is a rare but serious hyperinflammatory condition temporally associated with SARS-CoV-2 infection, the virus that causes COVID-19, typically emerging 2–6 weeks after the initial infection in individuals under 21 years of age. It is characterized by persistent fever and multisystem involvement, including inflammation of the heart, lungs, kidneys, brain, skin, eyes, and gastrointestinal organs, often leading to shock or multiorgan dysfunction if untreated. First recognized in 2020 during the COVID-19 pandemic, MIS-C shares features with Kawasaki disease and toxic shock syndrome but is distinguished by its post-infectious timing and evidence of prior SARS-CoV-2 exposure, such as positive antibody tests even in asymptomatic cases. Although cases have declined since peak pandemic years due to vaccination and immunity, MIS-C remains a reportable condition monitored by public health authorities worldwide. Children aged 5–11 years are most commonly affected, though it can occur in infants and adolescents up to age 20, with higher incidence among and populations, possibly linked to and underlying conditions like . Many affected children experience mild or unrecognized initially, but MIS-C presents with acute symptoms including prolonged fever (lasting at least 24 hours), , , , , , and mucous membrane involvement. Cardiovascular complications are prominent, such as , coronary artery dilation, or ventricular dysfunction, while neurological symptoms like or may also occur; severe cases can involve , respiratory distress, or requiring intensive care. Emergency warning signs include trouble breathing, persistent chest pain, confusion, or bluish skin discoloration, necessitating immediate medical attention. Diagnosis relies on clinical criteria established by the Centers for Disease Control and Prevention (CDC) and (WHO), requiring fever, multisystem inflammation (in at least two organs), evidence of infection or exposure, and exclusion of other causes like bacterial or rheumatic diseases. Laboratory findings often show elevated inflammatory markers (e.g., , ), cytopenias, and cardiac biomarkers, with imaging such as to assess heart involvement. Treatment is supportive and immunomodulatory, typically involving hospitalization, intravenous immunoglobulin (IVIG), systemic corticosteroids, and low-dose aspirin for antiplatelet effects, with anticoagulation or biologics like considered in refractory cases. Most patients recover fully within months, with cardiac abnormalities resolving in the majority by 6 months, though long-term follow-up for potential sequelae like or neurodevelopmental issues is recommended. Prevention focuses on vaccination for eligible children, which has been shown to reduce MIS-C risk.

Definition and Background

Nomenclature

Multisystem inflammatory syndrome in children (MIS-C) is the term established by the Centers for Disease Control and Prevention (CDC) to denote a rare, severe hyperinflammatory condition in individuals under 21 years of age, characterized by multisystem involvement and occurring approximately 2–6 weeks after infection or exposure. The World Health Organization (WHO) endorses the same , defining MIS-C as a post-COVID-19 inflammatory syndrome with fever, multiorgan dysfunction, and evidence of prior infection, emphasizing its post-infectious nature. The MIS-C originated from early CDC alerts in May 2020, reflecting the syndrome's impact across multiple organ systems, including cardiac, gastrointestinal, dermatologic, and hematologic involvement. In parallel, the United Kingdom's Royal College of Paediatrics and Child Health introduced "Paediatric Inflammatory Multisystem Syndrome" (PIMS) or "PIMS-TS" (temporally associated with ) to describe analogous cases, but these terms were quickly aligned with MIS-C for international consistency, as both refer to the same post-infectious entity without substantive clinical distinctions. Prior to formal naming, initial case clusters reported in spring 2020 from and the were described using provisional descriptors such as "Kawasaki-like illness" or "toxic shock-like syndrome" owing to phenotypic overlaps with (e.g., mucocutaneous inflammation) and (e.g., and multiorgan failure). These early characterizations highlighted the syndrome's novelty amid the but lacked uniformity, complicating global surveillance. Standardization of the MIS-C nomenclature occurred in mid-2020 through collaborative efforts by the CDC, WHO, and other bodies like the and Territorial Epidemiologists, which issued a unified case definition in May 2020 to streamline reporting, enhance comparability across jurisdictions, and support epidemiological tracking of this SARS-CoV-2-related condition. The surveillance case definition was revised in 2023 by CSTE/CDC to enhance specificity, including removal of the fever duration requirement and updated clinical evidence criteria.

Relation to COVID-19

Multisystem inflammatory syndrome in children (MIS-C) is a post-infectious hyperinflammatory condition strongly associated with prior infection, the virus responsible for . It typically emerges as a delayed following exposure to the virus, distinguishing it from the acute phase of illness. Health authorities, including the Centers for Disease Control and Prevention (CDC), have established MIS-C as a rare but serious complication linked to , with case definitions requiring evidence of recent or ongoing infection. The onset of MIS-C generally occurs 2 to 6 weeks after initial exposure, often in children who experienced mild, , or unrecognized infections. This temporal pattern was evident in early reports from 2020, where cases aligned with community transmission waves of the virus. For instance, surges in MIS-C hospitalizations in the United States and followed peaks in pediatric cases during the spring and summer of 2020, with epidemiological data showing a lag of several weeks between rising positivity rates and MIS-C presentations. Confirmation of the link to prior is routinely established through laboratory testing, with demonstrating high rates of positivity in affected children. Studies report that over 90% of MIS-C cases show evidence of recent via positive IgG antibodies against SARS-CoV-2 spike or nucleocapsid proteins, even when (RT-) for active virus is negative. In a cohort of U.S. children, all confirmed MIS-C patients had serological or PCR evidence of prior exposure, underscoring the post-infectious nature of the syndrome. This contrasts with acute , which involves direct and immediate symptoms, whereas MIS-C represents an aberrant immune activation weeks after viral clearance.

Clinical Presentation

Signs and Symptoms

Multisystem inflammatory syndrome in children (MIS-C) is characterized by persistent fever lasting more than three days, often accompanied by affecting multiple systems. Core symptoms include , , , , , and mucocutaneous lesions such as oral mucosal or cracked lips. Gastrointestinal symptoms are highly prevalent, occurring in 70-90% of cases, while mucocutaneous manifestations like and affect approximately 50% and 47% of patients, respectively. Cardiac involvement is common, seen in 60-80% of cases, and may manifest as , , , or left ventricular dysfunction. Coronary artery dilation or aneurysms occur in 20-30% of patients, contributing to the multisystem nature of the syndrome. Gastrointestinal features extend beyond core symptoms to include and , often leading to significant discomfort and . These manifestations underscore the prominent role of the tract in MIS-C presentations. Neurologic symptoms are less frequent but can involve , irritability, and in rare instances, or seizures, affecting around 27% of cases overall. Hematologic abnormalities, such as and lymphopenia, are prevalent, with lymphopenia reported in up to 73% of patients and in over 30%, reflecting the systemic inflammatory response.

Disease Progression

Multisystem inflammatory syndrome in children (MIS-C) typically emerges 2–6 weeks after an initial infection, often in children who may have been during the acute viral phase. The disease begins with an acute phase marked by persistent fever lasting several days, accompanied by prominent gastrointestinal symptoms such as , , and in 85–90% of cases. These initial manifestations can rapidly progress within days to systemic involvement, with and developing in 70–80% of affected children, signaling escalation to cardiovascular compromise. The hyperinflammatory follows, peaking around 4–6 weeks post-exposure, where multiorgan dysfunction intensifies due to a dysregulated resembling a . This stage involves cardiac abnormalities in 50–70% of patients, including left ventricular dysfunction and elevated inflammatory markers like and interleukin-6, often necessitating admission in 60–80% of cases. Gastrointestinal and mucocutaneous features, such as and , may overlap but contribute to the overall inflammatory burden during this period. Two primary phenotypes characterize this : a Kawasaki disease-like variant in approximately 17% of cases, featuring with , , and coronary artery involvement; and a shock-dominant form in 74%, dominated by profound and multiorgan failure. Resolution typically occurs within 1–2 weeks of symptom onset in most patients, with gradual improvement in organ function and normalization of inflammatory markers, though long-term is required due to potential sequelae. Cardiac complications, such as myocardial dysfunction, resolve in the majority within months, but coronary artery aneurysms develop in 9–24% and may persist, while arrhythmias arise in severe cases. The overall fatality rate remains low at under 2%, primarily linked to refractory or neurologic events in rare instances.

Diagnosis

Case Definitions

The case definitions for multisystem inflammatory syndrome in children (MIS-C) were developed by major health authorities to standardize identification, surveillance, and reporting of cases, facilitating timely public health responses during the COVID-19 pandemic. These criteria emphasize clinical features such as fever, systemic inflammation, and multisystem organ involvement, alongside a temporal or laboratory link to SARS-CoV-2 infection, while excluding alternative diagnoses. The Centers for Disease Control and Prevention (CDC) defines a confirmed MIS-C case in individuals under 21 years of age as involving subjective or documented fever (≥38.0°C), laboratory evidence of such as (CRP) ≥3.0 mg/dL (30 mg/L), and clinically severe illness requiring hospitalization or resulting in death, with involvement of two or more organ systems (such as cardiac, mucocutaneous, gastrointestinal, hematologic, or evidence of shock). A link to is required, either through detection of viral , , or antibodies, or exposure to a confirmed case within the past 60 days prior to symptom onset; no alternative plausible can explain the presentation. Probable cases meet similar criteria but with less stringent evidence of infection, such as close contact without laboratory confirmation. The (WHO) criteria, outlined in a 2020 scientific brief, target children and adolescents aged 0 to 19 years and require fever lasting at least three days, along with evidence of and involvement of two or more systems (including mucocutaneous, cardiovascular, gastrointestinal, hematologic, or respiratory). A connection to must be established through positive virologic or serologic testing, or exposure to confirmed cases, with exclusion of other microbial causes for the illness. Guidance from the Royal College of Paediatrics and Child Health (RCPCH) in the , issued in 2020 and termed pediatric inflammatory multisystem syndrome (PIMS), aligns closely with CDC and WHO frameworks but places additional emphasis on persistent fever, evidence of current or recent infection or exposure, and single or multi-organ dysfunction, particularly including shock or acute cardiac, respiratory, renal, gastrointestinal, or neurological involvement. It also highlights features that may overlap with incomplete , such as rash or , to broaden recognition. Case definitions evolved between 2020 and 2021 to enhance inclusivity and surveillance accuracy; for instance, the CDC's 2023 surveillance case definition (updated in late 2022) removed the requirement for fever duration greater than 24 hours and refined organ involvement criteria to better distinguish MIS-C from conditions like , while incorporating self-administered tests. These refinements aimed to capture a wider range of presentations without compromising specificity.

Laboratory and Imaging Findings

Laboratory findings in multisystem inflammatory syndrome in children (MIS-C) typically reveal evidence of , cardiac involvement, hematologic abnormalities, and serological markers of prior infection. Inflammatory markers are markedly elevated, with (CRP) levels exceeding 30 mg/L (or 3 mg/dL), (ESR) greater than 40 mm/h, above 500 ng/mL, and often substantially increased, reflecting and hyperinflammation. These elevations are present in the majority of cases and correlate with disease severity. Cardiac biomarkers show troponin elevation in approximately 65% of patients, indicating myocardial injury, alongside markedly increased B-type natriuretic peptide (BNP) or N-terminal pro-BNP levels, which are higher in severe cases. Echocardiography frequently demonstrates left ventricular dysfunction in up to 40% of patients, , and occasionally coronary artery abnormalities. Hematologic abnormalities include with platelet counts below 150,000/μL and , often accompanied by lymphopenia and . SARS-CoV-2 testing usually yields negative acute () results in most patients, consistent with a post-infectious , while antibodies are positive in 75-100% of cases. Imaging modalities support the diagnosis and assess organ involvement. (ECG) detects arrhythmias, ST-segment or T-wave abnormalities, and conduction delays in about 35% of patients. Cardiac magnetic resonance imaging (MRI) reveals features, including late gadolinium enhancement in up to 50% of evaluated cases, indicating myocardial or . These findings contribute to case definitions by confirming multiorgan involvement.

Differential Diagnosis

Multisystem inflammatory syndrome in children (MIS-C) presents with overlapping features such as fever, , and multi-organ involvement, necessitating careful differentiation from other inflammatory and infectious conditions to guide appropriate . Kawasaki disease (KD) shares prolonged fever, mucocutaneous , and conjunctivitis with MIS-C, but typically affects younger children (under 5 years) and features less gastrointestinal involvement or shock, lacking the direct link to recent infection. MIS-C patients are older (median age 6–11 years), exhibit higher rates of (40–80%) and gastrointestinal symptoms, and show elevated inflammatory markers like and compared to KD. Toxic shock syndrome (TSS) mimics through rapid-onset shock and multi-organ dysfunction but is caused by bacterial toxins from or species, often with identifiable infectious foci and without evidence of prior exposure. Sepsis or presents with fever, hypotension, and organ dysfunction similar to MIS-C, but is distinguished by positive bacterial cultures, younger age (median 4 years), shorter fever duration, higher levels, and less frequent gastrointestinal or myocardial involvement. Other conditions in the differential include , which features hyperinflammation and cytopenias but shows more pronounced hemophagocytosis and lacks the post-COVID-19 temporal association; systemic lupus erythematosus (lupus), characterized by chronic autoimmunity with autoantibodies and a multiphasic course unlike MIS-C's acute onset; and Epstein-Barr virus (EBV)-related illness, which may cause fever and but is identified through EBV-specific serology without evidence. Key distinguishing factors for MIS-C include positive serology or recent infection history (2–6 weeks prior), a monophasic illness course, and a profile with markedly elevated interleukin-6 (IL-6) levels, often higher than in KD or , alongside and lymphopenia.

Management

Supportive Care

Supportive care for multisystem inflammatory syndrome in children (MIS-C) emphasizes stabilization of vital functions through non-pharmacologic measures, particularly in the acute phase when patients may present with , respiratory compromise, or multiorgan involvement. Fluid is a cornerstone for managing and , with initial boluses administered cautiously in cases of suspected to avoid fluid overload, followed by assessment of cardiac function via before further volume expansion. Vasopressors, such as norepinephrine, are frequently required for refractory , with studies reporting their use in approximately 50-60% of hospitalized cases to maintain . Respiratory support is tailored to the degree of distress, with supplemental oxygen provided for and instituted in severe cases; while most patients (~90%) do not require , 50-80% are admitted to the (ICU), with advanced ventilatory support as needed. Continuous cardiac telemetry is essential for detecting arrhythmias, with electrocardiograms (EKGs) recommended every 48 hours or more frequently if abnormalities are present, alongside serial echocardiograms—often daily during acute illness—to monitor ventricular function and . Empiric broad-spectrum antibiotics should be administered pending exclusion of bacterial . Nutritional support addresses gastrointestinal manifestations, such as and , which occur in 60-90% of cases and may delay enteral feeding; early enteral is preferred when tolerated, using peptide-based formulas to improve absorption in those with mucosal inflammation, while is reserved for prolonged intolerance. A multidisciplinary team, including pediatric intensivists, cardiologists, and rheumatologists, coordinates care in the pediatric ICU setting to optimize outcomes, with escalation to immunomodulatory therapies considered if hemodynamic instability persists despite these interventions.

Pharmacologic Treatments

The first-line pharmacologic treatment for multisystem inflammatory syndrome in children (MIS-C) is intravenous immunoglobulin (IVIG) administered as a single dose of 2 g/kg, which modulates the and significantly reduces the risk of coronary artery . This regimen is particularly effective in preventing aneurysm formation, with studies demonstrating an approximately 80% reduction in incidence compared to untreated cases, drawing from evidence in analogous conditions like where aneurysm rates drop from 25% to less than 5%. IVIG is recommended for all patients meeting MIS-C criteria, often initiated early to improve outcomes such as hospital length of stay. For severe cases involving , , or persistent , corticosteroids such as at 2 mg/kg per day (divided doses) are added to the regimen to suppress the hyperinflammatory state. This therapy has been associated with shorter stays (e.g., 4 days versus 9 days with delayed use) and faster clinical recovery when administered early, within 48 hours of presentation. The combination of IVIG and corticosteroids is now standard for moderate to severe MIS-C, supported by randomized trial data showing reduced risks of persistent cardiovascular dysfunction. Low-dose aspirin (3–5 mg/kg per day, maximum 81 mg daily) is routinely used as an antiplatelet agent in patients with disease-like features, such as coronary involvement, to mitigate thrombotic risks without increasing bleeding concerns in most cases. Anticoagulation (e.g., ) is often initiated for evidence of or risk, guided by laboratory findings such as elevated . This is continued until inflammatory markers normalize and confirms resolution of abnormalities, typically for 4–6 weeks. In refractory cases where patients do not respond to initial IVIG and therapy (approximately 10–20% of cases), biologic agents such as (an IL-1 , dosed at 4–8 mg/kg per day subcutaneously) or (a TNF-α inhibitor, 5–10 mg/kg IV single dose) are employed as adjuncts to further control cytokine-driven inflammation. These agents have shown favorable outcomes in small cohorts with rapid defervescence and reduced need for escalation, though data remain limited to observational studies. These pharmacologic approaches align with joint recommendations from the (AAP) and Centers for Disease Control and Prevention (CDC), initially outlined in 2021 and updated in 2023 to prioritize the IVIG-corticosteroid combination for improved efficacy in severe presentations while minimizing complications.

Pathophysiology

Etiology

Multisystem inflammatory syndrome in children (MIS-C) is primarily triggered by with severe acute respiratory syndrome coronavirus 2 (), the virus responsible for , occurring as a postinfectious complication typically 2–6 weeks after the initial exposure, which may be . Nearly all affected children demonstrate evidence of prior through positive serology for neutralizing IgG antibodies or PCR detection of viral RNA. Genetic predisposition plays a key role in susceptibility, with certain (HLA) class I alleles, such as the combination of *02, *35, and *04, associated with increased risk of developing MIS-C following . Demographic risk factors further influence MIS-C development, with the highest incidence observed in children aged 5–11 years, representing the peak age group in multiple cohorts. Male sex predominates, accounting for approximately 60% of cases across studies. Racial and ethnic disparities are notable, with Black and Hispanic children experiencing 2–3 times higher rates of MIS-C compared to non-Hispanic White children, potentially reflecting a combination of genetic, socioeconomic, and exposure-related factors. These disparities highlight inequities in disease burden, with adjusted incidence rate ratios up to 5.6 for Black children and 2.8 for Hispanic children per million SARS-CoV-2 infections. Rare cases of MIS-C-like illness have been reported following vaccination, with an incidence of less than 0.1% among vaccinated children (e.g., 2.9 cases per million doses in adolescents), but large-scale studies confirm no causal link and no increased risk attributable to vaccination. Unlike infection itself, MIS-C is not directly contagious and arises from the host's dysregulated to the virus rather than ongoing . This immune overreaction, involving hyperinflammation, is explored further in related sections on .

Immune Mechanisms

Multisystem inflammatory syndrome in children (MIS-C) is characterized by a profound hyperinflammatory , often described as a , which arises in the weeks following infection. This dysregulation involves markedly elevated levels of proinflammatory , including interleukin-6 (IL-6), interleukin-10 (IL-10), and tumor necrosis factor-alpha (TNF-α), with concentrations typically 10- to 100-fold above normal ranges—such as average IL-6 levels reaching approximately 185 pg/mL compared to normal values below 5 pg/mL. These elevations contribute to widespread damage and multiorgan involvement, distinguishing MIS-C from the acute cytokine release seen in severe , though sharing features with .31157-0) A key component of the immune dysregulation in MIS-C is antibody-mediated immunity, where SARS-CoV-2-specific antibodies, particularly IgG against the , cross-react with host tissues. This molecular mimicry leads to production targeting endothelial cells, gastrointestinal , and immune cells, such as anti-La and anti-Jo-1 antibodies, exacerbating through immune complex deposition. All MIS-C patients exhibit high-titer antibodies with neutralizing capacity, underscoring the post-infectious immune activation. Endothelial dysfunction plays a central role in MIS-C , driven by cytokine-induced and binding to vascular antigens like P2RX4 and ECE1. This results in endothelial hyperinflammation, upregulation of adhesion molecules such as CD54 on neutrophils and monocytes, and subsequent with microvascular injury. The endothelial damage promotes a prothrombotic state, increasing the risk of and , as evidenced by elevated markers of vascular leakage and clotting in affected children. T-cell responses in MIS-C show signs of exhaustion, marked by increased soluble levels and reduced frequencies of γδ T cells, alongside activated but dysregulated effector T cells. In contrast, B cells demonstrate hyperactivity, with normal peripheral frequencies but heightened production of IgA and autoantibodies, contributing to the sustained inflammatory milieu post-infection. Compared to multisystem inflammatory syndrome in adults (MIS-A), the immune profile in MIS-C is similar in involving hyperinflammation and endothelial involvement but features less severe elevations, aligning with the generally better in pediatric cases despite overlapping antibody-mediated mechanisms.

Specific Pathways

Research has proposed that activation of the cGAS-STING pathway contributes to the of multisystem inflammatory syndrome in children (MIS-C) following infection. induces the release of cytoplasmic , which is sensed by cGAS, leading to activation and excessive production that drives . This mechanism, observed in studies from 2021 to 2023, results in heightened innate immune responses and endothelial damage characteristic of MIS-C, with inhibition shown to mitigate inflammation in related models. Cytokine elevations, such as IL-6 and TNF-α, may amplify this pathway's effects in MIS-C. Dysregulation of transforming growth factor-β (TGFβ) signaling has been implicated in MIS-C, particularly in promoting cardiac complications. Elevated serum TGFβ1 levels, reaching medians of 398 pg/mL in affected children, impair T cell function and contribute to immune suppression, facilitating persistent . In the context of SARS-CoV-2-related cardiac injury, TGFβ activation directs fibroblasts toward deposition, fostering in myocardial tissue and potentially leading to long-term ventricular dysfunction. This pathway's role is reversible with immunomodulatory treatments, as TGFβ levels decline post-therapy. Epstein-Barr virus (EBV) co-infection or reactivation has emerged as a potential trigger in MIS-C cases, enhancing through interactions with SARS-CoV-2-induced immune dysregulation. In a 2025 multicenter study of 145 children, 79.7% of MIS-C patients were EBV seropositive compared to 56.0% of controls, with 43.5% of those tested showing . TGFβ upregulation in MIS-C serum promotes EBV reactivation by suppressing cytotoxic T cells, creating a hyperinflammatory state; this process is observed in approximately 10-15% of cases based on detection thresholds. T cell responses targeting EBV peptides further suggest a role in amplifying multisystem involvement. Genetic factors, including variants in interferon pathway genes, increase susceptibility to MIS-C. Loss-of-function variants in IFIH1 (), such as heterozygous c.2016delA (p.D673Ifs5) and c.1641+1G>C, have been identified in pediatric MIS-C cases, leading to impaired antiviral responses and elevated inflammatory markers like CRP and IL-6. Similarly, autosomal recessive deficiencies in OAS1, including homozygous stop-gain p.R47, occur in about 1% of MIS-C patients, resulting in unchecked viral persistence and excessive production in . These variants are rare in the general population (cumulative frequency ~0.00013) and absent in mild cases, highlighting their specific contribution to MIS-C risk. Proteomic analyses reveal elevated S100A8/A9 (calprotectin) proteins in the of MIS-C patients, reflecting activation and innate immune dysregulation. Concentrations of S100A8/A9 are modestly increased in MIS-C cohorts, comparable to those in , and correlate with disease severity through promotion of proinflammatory signaling. A 2025 study confirmed higher calprotectin levels in MIS-C versus controls, linking them to tissue damage and distinguishing hyperinflammatory phenotypes. These changes underscore S100A8/A9 as a of ongoing in MIS-C.

Epidemiology

Incidence in Children

Multisystem inflammatory syndrome in children (MIS-C) is a rare post-infectious complication of , with studies reporting a global incidence ranging from 3 to 30 cases per 100,000 infections among children under 18 years of age. This variability reflects differences in surveillance methods, population demographics, and circulation patterns across regions, though the condition remains uncommon relative to overall pediatric cases. In the United States, the Centers for Disease Control and Prevention (CDC) had documented over 9,500 confirmed MIS-C cases by the end of 2023, with the majority occurring during the peak pandemic waves of 2020 and 2021. The incidence has since declined sharply, with only 117 cases reported with onset in 2023. Demographically, MIS-C disproportionately affects certain pediatric groups, with about 60% of cases occurring in males and a median age of diagnosis around 8 years. Racial and ethnic minorities face higher risks; for instance, Black children experience incidence rates up to four times higher than White children, alongside elevated rates among Hispanic populations. Approximately 70% of diagnosed children require hospitalization, and the case-fatality rate is estimated at 1-2%.

Global Trends and Variants

Following the widespread immunity from and prior infections, MIS-C cases experienced a substantial decline after 2022, with an approximately 80% reduction in incidence reported from late 2022 to 2023. This trend continued into 2024, where cases continued to decline, with the cumulative total reaching approximately 9,750 by December 2024, attributed to hybrid immunity and reduced circulation. By December 2024, the cumulative total reached 9,750 cases. As of September 2025, cases continue to decrease, with no resurgence reported amid low activity. Globally, similar decreases have been observed, with incidence dropping by 80-90% in high-surveillance regions like and , though sporadic cases persist in alignment with waves. The clinical presentation of MIS-C has varied by dominant SARS-CoV-2 variant, influencing both incidence and severity. During the Delta variant predominance, MIS-C often featured a more severe , with higher rates of and intensive care needs compared to earlier waves. In contrast, the era saw milder manifestations, including reduced overall incidence and less frequent cardiovascular compromise, though severe outcomes still occurred in about 23% of cases. These shifts reflect evolving viral pathogenicity and population-level protections. Reporting disparities highlight uneven global surveillance, with higher documented cases in and the U.S. due to robust health systems, while low-resource areas in , , and likely experience underreporting from limited diagnostic access and awareness. In middle- and low-income countries, outcomes show greater severity, underscoring the need for tailored to capture true burden. Sustained global monitoring is recommended to detect any resurgence amid emerging variants.

Occurrence in Adults

Multisystem inflammatory syndrome in adults (MIS-A) is defined by the Centers for Disease Control and Prevention (CDC) as a severe illness requiring hospitalization for at least 24 hours (or of any duration if resulting in death) in individuals aged 21 years or older. Key criteria include subjective or documented fever of at least 38.0°C for 24 hours or longer prior to or within the first three days of hospitalization, evidence of current or recent infection or exposure via positive nucleic acid amplification test, test, or test, and laboratory evidence of with at least two elevated markers such as , , interleukin-6, , or . Additionally, patients must exhibit involvement of at least three organ systems—with at least one primary criterion of severe cardiac illness (e.g., or left ventricular below 50%) or nonpurulent with mucocutaneous involvement—and no plausible alternative diagnosis. MIS-A shares core pathophysiological features with multisystem inflammatory syndrome in children (MIS-C), including post-infectious hyperinflammation temporally associated with , but manifests with distinct adult-specific patterns, such as greater emphasis on respiratory and cardiac complications over gastrointestinal symptoms. Early case series documented prominent cardiac dysfunction, including and , alongside elevated inflammatory markers like (often exceeding 100 mg/L) and D-dimer levels indicative of . Unlike MIS-C, which more frequently involves , , and diarrhea, MIS-A cases show reduced gastrointestinal predominance and increased rates of thrombotic events, such as deep vein thrombosis or , contributing to heightened severity. Epidemiologically, MIS-A is considerably rarer than MIS-C, with an estimated incidence of about 2 cases per 100,000 infections, primarily affecting young adults aged 21–50 years. As of March 2022, fewer than 300 confirmed cases had been reported to the CDC , reflecting its low prevalence amid millions of infections. Mortality rates for MIS-A range from 3% to 10%, exceeding those of MIS-C (typically 1–2%), often due to intensive care needs, , and thrombotic complications; for instance, in initial U.S. and U.K. case series totaling 27 patients, two deaths occurred (7.4%). Recent studies, including those from , highlight overlap in young adults (aged 18–21), with hybrid presentations blending MIS-C and MIS-A features under age-adjusted criteria, underscoring the syndrome's continuum across age groups.

Prevention

Vaccination Impact

COVID-19 vaccination has demonstrated substantial efficacy in reducing the risk of multisystem inflammatory syndrome in children (MIS-C). Studies from the Centers for Disease Control and Prevention (CDC) indicate that receipt of two doses of the Pfizer-BioNTech vaccine was 91% effective in preventing MIS-C among adolescents aged 12–18 years during 2021–2022, with follow-up analyses through 2022 showing reduced severity in vaccinated cases. At the population level, widespread vaccination rollout has contributed significantly to the decline in MIS-C cases from 2023 to 2025. For instance, U.S. surveillance data reported an 80% decrease in MIS-C incidence in 2023 compared to late 2022, aligning with increased coverage and reduced circulation among children. This trend reflects the vaccines' broader impact on curbing severe post- outcomes in pediatric groups. Administering COVID-19 vaccines to children following a diagnosis of MIS-C has been shown to be safe, with no evidence of increased recurrence risk. In a multicenter study of 385 children with prior MIS-C, 185 of whom were vaccinated after recovery, mild adverse reactions—such as arm soreness (34%) and fatigue (17%)—occurred in approximately 49% of recipients, comparable to rates in the general pediatric population, while no serious adverse events, including recurrent MIS-C or myocarditis, were reported. The 2025–2026 formulations of vaccines, updated to target circulating variants, continue to provide robust protection against MIS-C as recommended by the Advisory Committee on Immunization Practices (ACIP). These monovalent vaccines are advised for all children aged 6 months and older, emphasizing their benefits in preventing MIS-C amid evolving strains. As of 2025, MIS-C incidence has further declined, with U.S. rates below 0.1 cases per million person-months. Reports of MIS-C-like symptoms following vaccination remain exceedingly rare, occurring at rates far below 0.01% and generally considered coincidental rather than causally linked. Surveillance data confirm that such events are not associated with in the vast majority of cases, reinforcing the vaccines' favorable profile in children.

Infection Control Measures

Infection control measures for preventing multisystem inflammatory syndrome in children (MIS-C) primarily focus on reducing transmission, as MIS-C typically develops 2–6 weeks following . Rapid diagnostic testing, including and antigen tests, enables early detection of in households and schools, allowing for prompt of infected individuals to limit community spread. The CDC recommends that individuals with confirmed or suspected isolate for at least 5 days, followed by masking around others for an additional 5 days if symptoms improve, which helps curb household and school-based transmission that could lead to MIS-C. Masking and physical distancing were key non-pharmaceutical interventions during 2020–2022 that reduced overall transmission rates, indirectly lowering MIS-C incidence by preventing initial infections in children. Studies indicate that consistent masking behaviors among children with prior exposure were associated with a decreased likelihood of developing MIS-C, as these measures limited viral dose and secondary spread. Similarly, protocols, including maintaining 6 feet of separation in and school settings, correlated with a 7% reduction in COVID-19-related closures, contributing to fewer pediatric cases overall during peak pandemic periods. School policies, such as learning models implemented in 2020–2022, were associated with reduced community spread compared to full in-person instruction, thereby reducing the pool of potential MIS-C cases through decreased exposure opportunities. A study estimated that alternating in-person and remote days reduced infections by approximately 11% in the population. These approaches minimized transmission while balancing educational needs, with evidence showing lower adjusted rates of in hybrid versus fully in-person settings in some analyses. Enhanced for high-risk groups, including ethnic minorities and unvaccinated children, is essential due to their disproportionate MIS-C burden; non-Hispanic and children have shown 2–3 times higher incidence rates compared to non-Hispanic White children, even after adjusting for socioeconomic factors. Unvaccinated children face elevated risks, with 2023–2024 data indicating that approximately 75–80% of reported MIS-C cases occurred in this group, prompting targeted monitoring through national systems to facilitate early . As of 2025, guidelines from the CDC and WHO continue to emphasize these measures for vulnerable populations, such as children with underlying conditions or in high-transmission areas, despite the overall low MIS-C incidence (0.11 cases per million person-months in , with further declines). Core strategies include layered prevention like hand hygiene, improved ventilation, and selective masking in crowded settings, integrated with routine testing to sustain protection amid fluctuating respiratory virus activity.

Prognosis

Acute Outcomes

Most children with multisystem inflammatory syndrome in children (MIS-C) require hospitalization due to the severity of symptoms; early studies reported 70-80% necessitating admission to an (ICU) for management of , cardiac dysfunction, or respiratory , though recent data indicate lower utilization around 44%. The hospital length of stay is typically 5-7 days, though this can extend to 12 days or more for those with prolonged ICU needs; durations have trended shorter over time with improved recognition and protocols. Standard initial treatment involves intravenous immunoglobulin (IVIG) at 2 g/kg and systemic corticosteroids such as , often administered concurrently to mitigate hyperinflammation. Most patients achieve defervescence (resolution of fever) within 24-48 hours of initiating IVIG and steroids, with associated reductions in inflammatory markers like . Early combination therapy within the first 2 days of admission has been linked to reduced ICU length of stay compared to IVIG alone. Acute complications are common, particularly cardiovascular, with arrhythmias occurring in about 20% of cases, ranging from to , often resolving with supportive care. Coronary artery aneurysms develop in approximately 10% of patients, typically mild (z-score <10), and resolve in 80% by 1 month post-diagnosis with anti-inflammatory therapy and low-dose aspirin. Overall mortality is low at less than 2%, primarily attributable to refractory or multiorgan failure in severe cases despite aggressive interventions. Recent 2024 analyses of U.S. pediatric hospitalizations indicate faster recovery and lower ICU utilization (around 44%) with early intervention, reflecting evolving management strategies amid declining incidence.

Long-term Effects

Follow-up studies indicate that the majority of children with multisystem inflammatory syndrome in children (MIS-C) experience significant resolution of cardiac abnormalities within 6 to 12 months post-diagnosis. Cardiac (MRI) assessments in a multicenter of 255 children revealed that left ventricular () dysfunction persisted in only 4.2% at 6 months, down from higher acute-phase rates, while was evident in 2.5%. Coronary artery dilation remained in approximately 9.3% of evaluated cases at this interval, suggesting persistent mild abnormalities in 5-10% overall, though functional recovery was near-complete in 90% or more by 12 months. These findings align with broader trends where acute cardiac issues, such as myocardial , largely resolve without long-term intervention in most patients. Neurologic sequelae following MIS-C are uncommon and typically transient, with most deficits resolving by 2 years. In a prospective study of 64 children, abnormal neurologic findings present in 13 at 1-year follow-up normalized in 61.5% by 2 years, and only a small exhibited persistent symptoms like . Rare neurodevelopmental issues, such as ADHD-like behaviors, were noted in about 5-7% at baseline, but longitudinal data show no escalation and resolution in the majority by age 2. Overall, 95% of children achieved full recovery at 2-year follow-up across multiple cohorts, with no evidence of increased risk for chronic diseases like or neurological disorders. Quality-of-life assessments in 2025 cohort studies confirm robust long-term outcomes, with 85-95% of survivors reporting normal daily functioning and no ongoing symptoms. Mild fatigue affected only 3.4% at 6 months, diminishing further by 2 years, and aerobic capacity normalized in over 90% as measured by 6-minute walk tests. However, gaps persist in data on neurodevelopment among infants under 1 year at MIS-C onset, where small sample sizes limit comprehensive evaluation of subtle cognitive or motor delays.

History

Initial Recognition

The initial recognition of multisystem inflammatory syndrome in children (MIS-C) occurred during the early stages of the in , when clinicians observed unusual clusters of severe inflammatory illness in previously healthy children. In mid-April , a group of eight children in the presented over a 10-day period with unrelenting fever, , , gastrointestinal symptoms, and progression to vasoplegic requiring admission; this cluster was described as hyperinflammatory resembling atypical , syndrome, or , with possible links to exposure in four cases. These patients were initially managed with broad-spectrum antibiotics and inotropic support for presumed bacterial , highlighting early diagnostic challenges in distinguishing the condition from infectious etiologies. By early May 2020, similar cases emerged in the United States, particularly in , where health authorities identified over 100 probable cases by May 12, prompting urgent investigation into the syndrome's association with recent activity. The Centers for Disease Control and Prevention (CDC) issued a health alert on May 14, 2020, formally describing MIS-C as a multisystem inflammatory condition in children under 21 years with fever, laboratory evidence of inflammation, and evidence of infection or exposure, often 2–4 weeks after acute onset; the alert emphasized clinical overlap with and , and noted initial presentations mimicking bacterial infections. Concurrently, the (WHO) released a scientific brief on May 15, 2020, alerting global health systems to clusters of children requiring intensive care with a multisystem inflammatory syndrome temporally associated with , underscoring features overlapping with such as mucocutaneous involvement, cardiac abnormalities, and gastrointestinal symptoms. Early challenges in recognition included frequent misdiagnosis as bacterial or other states due to shared features like , elevated inflammatory markers, and multiorgan involvement, leading to initial empiric antibiotic therapy in many cases before testing confirmed the post-infectious etiology.

Key Research Developments

In 2020, an international consensus on diagnostic criteria for multisystem inflammatory syndrome in children (MIS-C) was established by organizations including the Centers for Disease Control and Prevention (CDC), (WHO), and Royal College of Paediatrics and Child Health (RCPCH), emphasizing persistent fever, multiorgan involvement, evidence of infection or exposure, and exclusion of other causes. Concurrently, the Overcoming trial, a multicenter randomized controlled study, demonstrated that initial combination therapy with intravenous immunoglobulin (IVIG) and glucocorticoids reduced the risk of treatment failure by approximately 75% compared to IVIG alone in hospitalized children with MIS-C. From 2022 to 2023, case-control studies highlighted the protective effect of vaccination against MIS-C, with two doses of the BNT162b2 (Pfizer-BioNTech) showing 91% effectiveness in preventing hospitalization for the syndrome among adolescents. Analyses during this period also revealed a significant decline in MIS-C incidence and severity with the emergence of the variant, attributed to higher population immunity and possibly reduced viral tropism for immune activation, resulting in an 80% drop in cases from 2022 to 2023 compared to prior waves. In 2024, proteomic profiling studies advanced discovery for MIS-C, identifying distinct protein signatures—such as elevated levels of S100A8/A9 proteins indicative of and inflammation—that differentiated the syndrome from mimics like and supported early diagnosis. Research in 2025 linked Epstein-Barr virus (EBV) reactivation to MIS-C , showing that SARS-CoV-2-induced (TGFβ) suppression facilitates latent EBV resurgence, triggering hyperinflammation via immune dysregulation. Long-term cohort studies during this year reported favorable two-year outcomes, with most survivors from severe MIS-C cases showing improvement in , behavior, and quality-of-life scores comparable to controls, though a subset experienced persistent subtle deficits such as increased related to acute illness severity. As of late 2025, MIS-C incidence has continued to decline globally, approaching zero in vaccinated populations with high immunity, though persists for potential sequelae like or neurodevelopmental issues in affected children. Ongoing includes of biologics such as and for refractory MIS-C cases unresponsive to standard IVIG and steroid therapy, targeting interleukin-1 and interleukin-6 pathways to improve outcomes in high-risk patients.