Browsing by Author "Rowan, Courtney M."
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Item 237. A Case-Control Study Investigating Household, Community, and Clinical Risk Factors Associated with Multisystem Inflammatory Syndrome in Children (MIS-C) after SARS-CoV-2 Infection(Oxford University Press, 2022) Zambrano, Laura D.; Wu, Michael J.; Martin, Lora M.; Malloch, Lacy; Newhams, Margaret M.; Son, Mary Beth; Sanders, Cameron; Patterson, Kayla; Halasa, Natasha B.; Fitzgerald, Julie C.; Leroue, Matthew; Hall, Mark; Irby, Katherine; Rowan, Courtney M.; Wellnitz, Kari; Loftis, Laura L.; Bradford, Tamara T.; Staat, Mary A.; Babbit, Christopher; Carroll, Christopher L.; Pannaraj, Pia S.; Kong, Michele; Chou, Janet; Patel, Manish M.; Randolph, Adrienne G.; Campbell, Angela P.; Hobbs, Charlotte V.; Medicine, School of MedicineBackground: Risk factors for MIS-C, a rare but serious hyperinflammatory syndrome associated with SARS-CoV-2 infection, remain unclear. We evaluated household, clinical, and environmental risk factors potentially associated with MIS-C. Methods: This investigation included MIS-C cases hospitalized in 14 US pediatric hospitals in 2021. Outpatient controls were frequency-matched to case-patients by age group and site and had a positive SARS-CoV-2 viral test within 3 months of the admission of their matched MIS-C case (Figure 1). We conducted telephone surveys with caregivers and evaluated potential risk factors using mixed effects multivariable logistic regression, including site as a random effect. We queried regarding exposures within the month before hospitalization for MIS-C cases or the month after a positive COVID-19 test for controls. Enrollment scheme for MIS-C case-patients and SARS-CoV-2-positive outpatient controls. MIS-C case-patients were identified through hospital electronic medical records, while two outpatient controls per case were identified through registries of outpatient SARS-CoV-2 testing logs at facilities affiliated with that medical center. Caregivers of outpatient controls were interviewed at least four weeks after their positive test to ensure they did not develop MIS-C after their infection. Results: We compared 275 MIS-C case-patients with 494 outpatient SARS-CoV-2-positive controls. Race, ethnicity and social vulnerability indices were similar. MIS-C was more likely among persons who resided in households with >1 resident per room (aOR=1.6, 95% CI: 1.1–2.2), attended a large (≥10 people) event with little to no mask-wearing (aOR=2.2, 95% CI: 1.4–3.5), used public transportation (aOR=1.6, 95% CI: 1.2–2.1), attended school >2 days per week with little to no mask wearing (aOR=2.1, 95% CI: 1.0–4.4), or had a household member test positive for COVID-19 (aOR=2.1, 95% CI: 1.3–3.3). MIS-C was less likely among children with comorbidities (aOR=0.5, 95% CI: 0.3–0.9) and in those who had >1 positive SARS-CoV-2 test at least 1 month apart (aOR=0.4, 95% CI: 0.2–0.6). MIS-C was not associated with a medical history of recurrent infections or family history of underlying rheumatologic disease. Conclusion: Household crowding, limited masking at large indoor events or schools and use of public transportation were associated with increased likelihood of developing MIS-C after SARS-CoV-2 infection. In contrast, decreased likelihood of MIS-C was associated with having >1 SARS-CoV-2 positive test separated by at least a month. Our data suggest that additional studies are needed to determine if viral load, and/or recurrent infections in the month prior to MIS-C contribute to MIS-C risk. Medical and family history were not associated with MIS-C in our analysis.Item Antigen-specific T cell responses correlate with decreased occurrence of acute GVHD in a multicenter contemporary cohort(Springer Nature, 2022) Cruz, Conrad Russell Y.; Bo, Na; Bakoyannis, Giorgos; Wright, Kaylor E.; Chorvinsky, Elizabeth A.; Powell, Allison; Bollard, Catherine M.; Jacobsohn, David; Cooke, Kenneth R.; Duncan, Christine; Krance, Robert M.; Carpenter, Paul A.; Rowan, Courtney M.; Paczesny, Sophie; Biostatistics and Health Data Science, Richard M. Fairbanks School of Public HealthItem Author Correction: Cross-reactive immunity against the SARS-CoV-2 Omicron variant is low in pediatric patients with prior COVID-19 or MIS-C(Springer Nature, 2022-08-12) Tang, Juanjie; Novak, Tanya; Hecker, Julian; Grubbs, Gabrielle; Zahra, Fatema Tuz; Bellusci, Lorenza; Pourhashemi, Sara; Chou, Janet; Moffitt, Kristin; Halasa, Natasha B.; Schwartz, Stephanie P.; Walker, Tracie C.; Tarquinio, Keiko M.; Zinter, Matt S.; Staat, Mary A.; Gertz, Shira J.; Cvijanovich, Natalie Z.; Schuster, Jennifer E.; Loftis, Laura L.; Coates, Bria M.; Mack, Elizabeth H.; Irby, Katherine; Fitzgerald, Julie C.; Rowan, Courtney M.; Kong, Michele; Flori, Heidi R.; Maddux, Aline B.; Shein, Steven L.; Crandall, Hillary; Hume, Janet R.; Hobbs, Charlotte V.; Tremoulet, Adriana H.; Shimizu, Chisato; Burns, Jane C.; Chen, Sabrina R.; Moon, Hye Kyung; Lange, Christoph; Randolph, Adrienne G.; Khurana, Surender; Pediatrics, School of MedicineCorrection to: Nature Communications 10.1038/s41467-022-30649-1, published online 27 May 2022Item Author Correction: Diagnosis, grading and management of toxicities from immunotherapies in children, adolescents and young adults with cancer(Springer Nature, 2021) Ragoonanan, Dristhi; Khazal, Sajad J.; Abdel-Azim, Hisham; McCall, David; Cuglievan, Branko; Tambaro, Francesco Paolo; Ahmad, Ali Haider; Rowan, Courtney M.; Gutierrez, Cristina; Schadler, Keri; Li, Shulin; Di Nardo, Matteo; Chi, Linda; Gulbis, Alison M.; Shoberu, Basirat; Mireles, Maria E.; McArthur, Jennifer; Kapoor, Neena; Miller, Jeffrey; Fitzgerald, Julie C.; Tewari, Priti; Petropoulos, Demetrios; Gill, Jonathan B.; Duncan, Christine N.; Lehmann, Leslie E.; Hingorani, Sangeeta; Angelo, Joseph R.; Swinford, Rita D.; Steiner, Marie E.; Hernandez Tejada, Fiorela N.; Martin, Paul L.; Auletta, Jeffery; Won Choi, Sung; Bajwa, Rajinder; Dailey Garnes, Natalie; Kebriaei, Partow; Rezvani, Katayoun; Wierda, William G.; Neelapu, Sattva S.; Shpall, Elizabeth J.; Corbacioglu, Selim; Mahadeo, Kris M.; Pediatrics, School of MedicineCorrection to: Nature Reviews Clinical Oncology https://doi.org/10.1038/s41571-021-00474-4, published online 19 February 2021. In the original version of this Consensus Statement, the name of the author Christine N. Duncan was incorrectly written as Christine N. Duncun. In addition, Fig. 1 contained errors regarding the criteria to grade cytokine-release syndrome (CRS). “Hypotension not requiring vasopressors” has now been corrected to “hypotension requiring one vasopressor ± vasopressin” for grade 3 CRS and “hypotension requiring multiple vasopressors, not including vasopressin” for grade 4 CRS. The affiliations and Fig. 1 have been corrected in the HTML and PDF versions of the manuscript.Item A biomarker panel for risk of early respiratory failure following hematopoietic cell transplantation(American Society of Hematology, 2022) Rowan, Courtney M.; Smith, Lincoln; Sharron, Matthew P.; Loftis, Laura; Kudchadkar, Sapna; Duncan, Christine N.; Pike, Francis; Carpenter, Paul A.; Jacobsohn, David; Bollard, Catherine M.; Cruz, Conrad Russell Y.; Malatpure, Abhijeet; Farag, Sherif; Renbarger, Jamie; Little, Morgan R.; Gafken, Phillip R.; Krance, Robert A.; Cooke, Kenneth R.; Paczesny, Sophie; Pediatrics, School of MedicinePlasma biomarkers associated with respiratory failure (RF) following hematopoietic cell transplantation (HCT) have not been identified. Therefore, we aimed to validate early (7 and 14 days post-HCT) risk biomarkers for RF. Using tandem mass spectrometry, we compared plasma obtained at day 14 post-HCT from 15 patients with RF and 15 patients without RF. Six candidate proteins, from this discovery cohort or identified in the literature, were measured by enzyme-linked immunosorbent assay in day-7 and day-14 post-HCT samples from the training (n = 213) and validation (n = 119) cohorts. Cox proportional-hazard analyses with biomarkers dichotomized by Youden's index, as well as landmark analyses to determine the association between biomarkers and RF, were performed. Of the 6 markers, Stimulation-2 (ST2), WAP 4-disulfide core domain protein 2 (WFDC2), interleukin-6 (IL-6), and tumor necrosis factor receptor 1 (TNFR1), measured at day 14 post-HCT, had the most significant association with an increased risk for RF in the training cohort (ST2: hazard ratio [HR], 4.5, P = .004; WFDC2: HR, 4.2, P = .010; IL-6: HR, 6.9, P < .001; and TFNR1: HR, 6.1, P < .001) and in the validation cohort (ST2: HR, 23.2, P = .013; WFDC2: HR, 18.2, P = .019; IL-6: HR, 12.2, P = .014; and TFNR1: HR, 16.1, P = .001) after adjusting for the conditioning regimen. Using cause-specific landmark analyses, including days 7 and 14, high plasma levels of ST2, WFDC2, IL-6, and TNFR1 were associated with an increased HR for RF in the training and validation cohorts. These biomarkers were also predictive of mortality from RF. ST2, WFDC2, IL-6 and TNFR1 levels measured early posttransplantation improve risk stratification for RF and its related mortality.Item Biomarkers for Early Complications After Hematopoietic Stem Cell Transplantation(Elsevier, 2019-03) Rowan, Courtney M.; Paczesny, Sophie; Pediatrics, School of MedicineThe advancement in technology, particularly in the field of omics, has led to numerous discoveries of biomarkers for early post-HSCT complications. Future research must include the testing of newly discovered biomarkers against existing, validated biomarkers. Work also needs to be done to implement the promising, validated biomarkers into clinical practice in a time-efficient and cost-effective manner. The prognostic biomarkers should be incorporated into clinical trials so that the effect of early recognition on the outcomes of HSCT recipients can be assessed. Diagnostic biomarkers can help to differentiate the complex variety of diseases that can be present in this population. Finally, biomarkers that can serve as therapeutic targets should be further studied. Many of these post-HSCT complications have limited or nonspecific therapeutic options. For example, corticosteroids are the first-line therapy for aGVHD. Using biomarkers to help identify underlying biologic pathways may open new therapeutic avenues that deserve investigation. This major advancement in technology allows for early diagnosis of complications, risk stratification for complications, and potential new therapeutic targets. All of these strides can improve the utilization of life-saving allogeneic HSCT while minimizing complications and mortality.Item CALIPSO: A Randomized Controlled Trial of Calfactant for Acute Lung Injury in Pediatric Stem Cell and Oncology Patients(Elsevier, 2018) Thomas, Neal J.; Spear, Debbie; Wasserman, Emily; Pon, Steven; Markovitz, Barry; Singh, Aalok R.; Li, Simon; Gertz, Shira J.; Rowan, Courtney M.; Kunselman, Allen; Tamburro, Robert F.; Pediatrics, School of MedicineTo assess if calfactant reduces mortality among children with leukemia/lymphoma or after hematopoietic cell transplantation (HCT) with pediatric acute respiratory distress syndrome (PARDS), we conducted a multicenter, randomized, placebo-controlled, double-blinded trial in 17 pediatric intensive care units (PICUs) of tertiary care children's hospitals. Patients ages 18 months to 25 years with leukemia/lymphoma or having undergone HCT who required invasive mechanical ventilation for bilateral lung disease with an oxygenation index (OI) > 10 and <37 were studied. Interventions used were intratracheal instillation of either calfactant or air placebo (1 or 2 doses). Forty-three subjects were enrolled between November 2010 and June 2015: 26 assigned to calfactant and 17 to placebo. There were no significant differences in the primary outcome, which was survival to PICU discharge (adjusted hazard ratio of mortality for calfactant versus placebo, 1.78; 95% confidence interval, .53 to 6.05; P = .35), OI, functional outcomes, or ventilator-free days, adjusting for risk strata and Pediatric Risk of Mortality (PRISM) score. Despite the risk-stratified randomization, more allogeneic HCT patients received calfactant (76% and 39%, respectively) due to low recruitment at various sites. This imbalance is important because independent of treatment arm and while adjusting for PRISM score, those with allogeneic HCT had a nonsignificant higher likelihood of death at PICU discharge (adjusted odds ratio, 3.02; 95% confidence interval, .76 to 12.06; P = .12). Overall, 86% of the patients who survived to PICU discharge also were successfully discharged from the hospital. These data do not support the use of calfactant among this high mortality group of pediatric leukemia/lymphoma and/or HCT patients with PARDS to increase survival. In spite of poor enrollment, allogeneic HCT patients with PARDS appeared to be characterized by higher mortality than even other high-risk immunosuppressed groups. Conducting research among these children is challenging but necessary, because survival to PICU discharge usually results in successful discharge to home.Item Candidacy for Extracorporeal Life Support in Children After Hematopoietic Cell Transplantation: A Position Paper From the Pediatric Acute Lung Injury and Sepsis Investigators Network's Hematopoietic Cell Transplant and Cancer Immunotherapy Subgroup(Wolters Kluwer, 2022) Zinter, Matt S.; McArthur, Jennifer; Duncan, Christine; Adams, Roberta; Kreml, Erin; Dalton, Heidi; Abdel-Azim, Hisham; Rowan, Courtney M.; Gertz, Shira J.; Mahadeo, Kris M.; Randolph, Adrienne G.; Rajapreyar, Prakadeshwari; Steiner, Marie E.; Lehmann, Leslie; Hematopoietic Cell Transplant and Cancer Immunotherapy Subgroup of the PALISI Network; Pediatrics, School of MedicineObjectives: The last decade has seen improved outcomes for children requiring extracorporeal life support as well as for children undergoing hematopoietic cell transplantation. Thus, given the historically poor survival of hematopoietic cell transplantation patients using extracorporeal life support, the Pediatric Acute Lung Injury and Sepsis Investigators' hematopoietic cell transplantation and cancer immunotherapy subgroup aimed to characterize the utility of extracorporeal life support in facilitating recovery from critical cardiorespiratory illnesses in pediatric hematopoietic cell transplantation patients. Data sources: All available published data were identified using a set of PubMed search terms for pediatric extracorporeal life support and hematopoietic cell transplantation. Study selection: All articles that provided original reports of pediatric hematopoietic cell transplantation patients who underwent extracorporeal life support were included. Sixty-four manuscripts met search criteria. Twenty-four were included as primary reports of pediatric hematopoietic cell transplantation patients who underwent extracorporeal life support (11 were single case reports, four single institution case series, two multi-institution case series, and seven registry reports from Extracorporeal Life Support Organization, Pediatric Heath Information System, and Virtual Pediatric Systems). Data extraction: All 24 articles were reviewed by first and last authors and a spread sheet was constructed including sample size, potential biases, and conclusions. Data synthesis: Discussions regarding incorporation of available evidence into our clinical practice were held at biannual meetings, as well as through email and virtual meetings. An expert consensus was determined through these discussions and confirmed through a modified Delphi process. Conclusions: Extracorporeal life support in hematopoietic cell transplantation patients is being used with increasing frequency and potentially improving survival. The Pediatric Acute Lung Injury and Sepsis Investigators hematopoietic cell transplantation-cancer immunotherapy subgroup has developed a framework to guide physicians in decision-making surrounding extracorporeal life support candidacy in pediatric hematopoietic cell transplantation patients. In addition to standard extracorporeal life support considerations, candidacy in the hematopoietic cell transplantation population should consider the following six factors in order of consensus agreement: 1) patient comorbidities; 2) underlying disease necessitating hematopoietic cell transplantation; 3) hematopoietic cell transplantation toxicities, 4) family and patient desires for goals of care; 5) hematopoietic cell transplantation preparatory regimen; and 6) graft characteristics. Although risk assessment may be individualized, data are currently insufficient to clearly delineate ideal candidacy. Therefore, we urge the onco-critical care community to collaborate and capture data to provide better evidence to guide physicians' decision-making in the future.Item Changes in Distribution of Severe Neurologic Involvement in US Pediatric Inpatients With COVID-19 or Multisystem Inflammatory Syndrome in Children in 2021 vs 2020(American Medical Association, 2023) LaRovere, Kerri L.; Poussaint, Tina Y.; Young, Cameron C.; Newhams, Margaret M.; Kucukak, Suden; Irby, Katherine; Kong, Michele; Schwartz, Stephanie P.; Walker, Tracie C.; Bembea, Melania M.; Wellnitz, Kari; Havlin, Kevin M.; Cvijanovich, Natalie Z.; Hall, Mark W.; Fitzgerald, Julie C.; Schuster, Jennifer E.; Hobbs, Charlotte V.; Halasa, Natasha B.; Singh, Aalok R.; Mack, Elizabeth H.; Bradford, Tamara T.; Gertz, Shira J.; Schwarz, Adam J.; Typpo, Katri V.; Loftis, Laura L.; Giuliano, John S., Jr.; Horwitz, Steven M.; Biagas, Katherine V.; Clouser, Katharine N.; Rowan, Courtney M.; Maddux, Aline B.; Soma, Vijaya L.; Babbitt, Christopher J.; Aguiar, Cassyanne L.; Kolmar, Amanda R.; Heidemann, Sabrina M.; Harvey, Helen; Zambrano, Laura D.; Campbell, Angela P.; Randolph, Adrienne G.; Overcoming COVID-19 Investigators; Pediatrics, School of MedicineImportance: In 2020 during the COVID-19 pandemic, neurologic involvement was common in children and adolescents hospitalized in the United States for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)-related complications. Objective: To provide an update on the spectrum of SARS-CoV-2-related neurologic involvement among children and adolescents in 2021. Design, setting, and participants: Case series investigation of patients reported to public health surveillance hospitalized with SARS-CoV-2-related illness between December 15, 2020, and December 31, 2021, in 55 US hospitals in 31 states with follow-up at hospital discharge. A total of 2253 patients were enrolled during the investigation period. Patients suspected of having multisystem inflammatory syndrome in children (MIS-C) who did not meet criteria (n = 85) were excluded. Patients (<21 years) with positive SARS-CoV-2 test results (reverse transcriptase-polymerase chain reaction and/or antibody) meeting criteria for MIS-C or acute COVID-19 were included in the analysis. Exposure: SARS-CoV-2 infection. Main outcomes and measures: Patients with neurologic involvement had acute neurologic signs, symptoms, or diseases on presentation or during hospitalization. Life-threatening neurologic involvement was adjudicated by experts based on clinical and/or neuroradiological features. Type and severity of neurologic involvement, laboratory and imaging data, vaccination status, and hospital discharge outcomes (death or survival with new neurologic deficits). Results: Of 2168 patients included (58% male; median age, 10.3 years), 1435 (66%) met criteria for MIS-C, and 476 (22%) had documented neurologic involvement. Patients with neurologic involvement vs without were older (median age, 12 vs 10 years) and more frequently had underlying neurologic disorders (107 of 476 [22%] vs 240 of 1692 [14%]). Among those with neurologic involvement, 42 (9%) developed acute SARS-CoV-2-related life-threatening conditions, including central nervous system infection/demyelination (n = 23; 15 with possible/confirmed encephalitis, 6 meningitis, 1 transverse myelitis, 1 nonhemorrhagic leukoencephalopathy), stroke (n = 11), severe encephalopathy (n = 5), acute fulminant cerebral edema (n = 2), and Guillain-Barré syndrome (n = 1). Ten of 42 (24%) survived with new neurologic deficits at discharge and 8 (19%) died. Among patients with life-threatening neurologic conditions, 15 of 16 vaccine-eligible patients (94%) were unvaccinated. Conclusions and relevance: SARS-CoV-2-related neurologic involvement persisted in US children and adolescents hospitalized for COVID-19 or MIS-C in 2021 and was again mostly transient. Central nervous system infection/demyelination accounted for a higher proportion of life-threatening conditions, and most vaccine-eligible patients were unvaccinated. COVID-19 vaccination may prevent some SARS-CoV-2-related neurologic complications and merits further study.Item Characteristics and Outcomes of US Children and Adolescents With Multisystem Inflammatory Syndrome in Children (MIS-C) Compared With Severe Acute COVID-19(AMA, 2021-02) Feldstein, Leora R.; Tenforde, Mark W.; Friedman, Kevin G.; Newhams, Margaret; Rose, Erica Billig; Dapul, Heda; Soma, Vijaya L.; Maddux, Aline B.; Mourani, Peter M.; Bowens, Cindy; Maamari, Mia; Hall, Mark W.; Riggs, Becky J.; Giuliano, John S.; Singh, Aalok R.; Li, Simon; Kong, Michele; Schuster, Jennifer E.; McLaughlin, Gwenn E.; Schwartz, Stephanie P.; Walker, Tracie C.; Loftis, Laura L.; Hobbs, Charlotte V.; Halasa, Natasha B.; Doymaz, Sule; Babbitt, Christopher J.; Hume, Janet R.; Gertz, Shira J.; Irby, Katherine; Clouser, Katharine N.; Cvijanovich, Natalie Z.; Bradford, Tamara T.; Smith, Lincoln S.; Heidemann, Sabrina M.; Zackai, Sheemon P.; Wellnitz, Kari; Nofziger, Ryan A.; Horwitz, Steven M.; Carroll, Ryan W.; Rowan, Courtney M.; Tarquinio, Keiko M.; Mack, Elizabeth H.; Fitzgerald, Julie C.; Coates, Bria M.; Jackson, Ashley M.; Young, Cameron C.; Son, Mary Beth F.; Patel, Manish M.; Newburger, Jane W.; Randolph, Adrienne G.; Overcoming COVID-19 Investigators; Pediatrics, School of MedicineImportance Refinement of criteria for multisystem inflammatory syndrome in children (MIS-C) may inform efforts to improve health outcomes. Objective To compare clinical characteristics and outcomes of children and adolescents with MIS-C vs those with severe coronavirus disease 2019 (COVID-19). Setting, Design, and Participants Case series of 1116 patients aged younger than 21 years hospitalized between March 15 and October 31, 2020, at 66 US hospitals in 31 states. Final date of follow-up was January 5, 2021. Patients with MIS-C had fever, inflammation, multisystem involvement, and positive severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) reverse transcriptase–polymerase chain reaction (RT-PCR) or antibody test results or recent exposure with no alternate diagnosis. Patients with COVID-19 had positive RT-PCR test results and severe organ system involvement. Exposure SARS-CoV-2. Main Outcomes and Measures Presenting symptoms, organ system complications, laboratory biomarkers, interventions, and clinical outcomes. Multivariable regression was used to compute adjusted risk ratios (aRRs) of factors associated with MIS-C vs COVID-19. Results Of 1116 patients (median age, 9.7 years; 45% female), 539 (48%) were diagnosed with MIS-C and 577 (52%) with COVID-19. Compared with patients with COVID-19, patients with MIS-C were more likely to be 6 to 12 years old (40.8% vs 19.4%; absolute risk difference [RD], 21.4% [95% CI, 16.1%-26.7%]; aRR, 1.51 [95% CI, 1.33-1.72] vs 0-5 years) and non-Hispanic Black (32.3% vs 21.5%; RD, 10.8% [95% CI, 5.6%-16.0%]; aRR, 1.43 [95% CI, 1.17-1.76] vs White). Compared with patients with COVID-19, patients with MIS-C were more likely to have cardiorespiratory involvement (56.0% vs 8.8%; RD, 47.2% [95% CI, 42.4%-52.0%]; aRR, 2.99 [95% CI, 2.55-3.50] vs respiratory involvement), cardiovascular without respiratory involvement (10.6% vs 2.9%; RD, 7.7% [95% CI, 4.7%-10.6%]; aRR, 2.49 [95% CI, 2.05-3.02] vs respiratory involvement), and mucocutaneous without cardiorespiratory involvement (7.1% vs 2.3%; RD, 4.8% [95% CI, 2.3%-7.3%]; aRR, 2.29 [95% CI, 1.84-2.85] vs respiratory involvement). Patients with MIS-C had higher neutrophil to lymphocyte ratio (median, 6.4 vs 2.7, P < .001), higher C-reactive protein level (median, 152 mg/L vs 33 mg/L; P < .001), and lower platelet count (<150 ×103 cells/μL [212/523 {41%} vs 84/486 {17%}, P < .001]). A total of 398 patients (73.8%) with MIS-C and 253 (43.8%) with COVID-19 were admitted to the intensive care unit, and 10 (1.9%) with MIS-C and 8 (1.4%) with COVID-19 died during hospitalization. Among patients with MIS-C with reduced left ventricular systolic function (172/503, 34.2%) and coronary artery aneurysm (57/424, 13.4%), an estimated 91.0% (95% CI, 86.0%-94.7%) and 79.1% (95% CI, 67.1%-89.1%), respectively, normalized within 30 days. Conclusions and Relevance This case series of patients with MIS-C and with COVID-19 identified patterns of clinical presentation and organ system involvement. These patterns may help differentiate between MIS-C and COVID-19.