474. Unique Treatment Challenges with Multisystem Inflammatory Syndrome in Children (MIS-C) compared to Kawasaki Disease Shock Syndrome

Abstract Background Kawasaki disease (KD) and Multisystem Inflammatory Syndrome in Children (MIS-C) associated with Coronavirus Disease 2019 present similarly with mucocutaneous symptoms and fever. Both syndromes can progress to shock. Successful treatments for MIS-C are largely based on proven KD management. As more patients with MIS-C are treated, protocols are adjusted. Infectious Diseases (ID) specialists are often early consultants in these cases. Understanding differences in how body systems are affected in MIS-C versus KD is essential for management. Figure 1. Cardiac changes among patients with Kawasaki Disease shock syndrome (KDSS) and Muti-system Inflammatory Syndrome (MIS-C) Methods This is a single hospital comparison of 25 cases of MIS-C with mucocutaneous presentation and symptoms of shock and 25 consecutive cases of KD Shock Syndrome (KDSS). Cases were compared for demographics, symptoms, cardiac abnormalities, medical treatments, and cardiac recovery. Results Patients with MIS-C develop symptoms of shock including sustained hypotension and tachycardia at 3 times the rate of patients with KD (45% vs 13%; p< 0.001). On echocardiogram, left ventricular myocardial dysfunction, assessed by ejection fraction, is more commonly noted in cases of MIS-C than KDSS (fig 1). About half of patients with MIS-C show left ventricular myocardial dysfunction initially with normalization by 6 months post-presentation in the majority (96%). Conclusion Cardiac changes and shock events related to KD and MIS-C are thought to be caused by differing inflammatory mediators. By comparing these two syndromes, we can determine ways to manage each optimally. MIS-C often results in left ventricular myocardial dysfunction, which is rarer in KD cases. Fluid resuscitation with multiple fluid boluses followed by inotropes to treat hypotension in cases of in MIS-C puts increased strain on the already weakened myocardium. Early intravenous immunoglobulin (IVIG) administration, even in the presence of mild hypotension, can simultaneously provide the patient with additional fluid and decrease the underlying inflammatory process. This prompt treatment might reduce the need for pressor support while protecting the myocardium from further damage. As early consultants in MIS-C, ID providers should be educated regarding the unique cardiac challenges of MIS-C and avoid delay in IVIG treatment and cardiologist and intensivist consultation. Disclosures All Authors: No reported disclosures


Background.
Growing clinical evidence in adults has demonstrated use of COVID monoclonal antibody (mAB) therapy results in a reduction of hospitalization and/or emergency room (ER) visits with the greatest benefit following early administration. While the FDA has authorized use of mAB therapy in children ages 12-17 years, clinical outcomes in this population have yet to be described. This study aims to assess the pediatric clinical experience in a low social economic setting.
Methods. Retrospective study conducted among children and adolescents who tested positive for SARS-CoV-2 from 12/1/2020 to 6/1/2021, met ≥ 1 eligibility criterion based on pre-determined institutional guidelines. Individuals were identified by patient-level data linked to pharmacy and medical claims with ICD-10 codes for COVID-19. Electronic medical records were reviewed for demographic characteristics, comorbidities, time to receipt of mAB therapy from positive test, adverse effects, and clinical outcomes. Primary clinical end point was hospitalization and/or medical visit at 28 days. Descriptive summary statistics were used for the entire cohort.
Demographics and Results Table   The table describes the pediatric patients and clinical outcome of receiving monoclonal antibody treatment for COVID-19.
Conclusion. Though limited by numbers, our findings may suggest a role of mAB therapy in children and adolescents in our setting. With increasing rates of SARS-CoV-2 in this age group coupled with vaccine hesitancy, mAB therapy may serve as an important outpatient intervention with a need for further studies to assess clinical benefit and establish optimal, cost-effective, practice guidelines for these highly vulnerable patients.
Disclosures. Background. Kawasaki disease (KD) and Multisystem Inflammatory Syndrome in Children (MIS-C) associated with Coronavirus Disease 2019 present similarly with mucocutaneous symptoms and fever. Both syndromes can progress to shock. Successful treatments for MIS-C are largely based on proven KD management. As more patients with MIS-C are treated, protocols are adjusted. Infectious Diseases (ID) specialists are often early consultants in these cases. Understanding differences in how body systems are affected in MIS-C versus KD is essential for management. Methods. This is a single hospital comparison of 25 cases of MIS-C with mucocutaneous presentation and symptoms of shock and 25 consecutive cases of KD Shock Syndrome (KDSS). Cases were compared for demographics, symptoms, cardiac abnormalities, medical treatments, and cardiac recovery.
Results. Patients with MIS-C develop symptoms of shock including sustained hypotension and tachycardia at 3 times the rate of patients with KD (45% vs 13%; p< 0.001). On echocardiogram, left ventricular myocardial dysfunction, assessed by ejection fraction, is more commonly noted in cases of MIS-C than KDSS (fig 1). About half of patients with MIS-C show left ventricular myocardial dysfunction initially with normalization by 6 months post-presentation in the majority (96%).
Conclusion. Cardiac changes and shock events related to KD and MIS-C are thought to be caused by differing inflammatory mediators. By comparing these two syndromes, we can determine ways to manage each optimally. MIS-C often results in left ventricular myocardial dysfunction, which is rarer in KD cases. Fluid resuscitation with multiple fluid boluses followed by inotropes to treat hypotension in cases of in MIS-C puts increased strain on the already weakened myocardium. Early intravenous immunoglobulin (IVIG) administration, even in the presence of mild hypotension, can simultaneously provide the patient with additional fluid and decrease the underlying inflammatory process. This prompt treatment might reduce the need for pressor support while protecting the myocardium from further damage. As early consultants in MIS-C, ID providers should be educated regarding the unique cardiac challenges of MIS-C and avoid delay in IVIG treatment and cardiologist and intensivist consultation.
Disclosures. All Authors: No reported disclosures Background. In the U.S., non-Hispanic Black individuals are disproportionately represented amongst COVID-19 mortalities. The COVID-19 vaccines are poised to change this outcome; however, inequitable access and decades of medical mistreatment have resulted in healthcare mistrust and an associated low uptake within this group. Loma Linda University (LLU) houses the largest mass vaccination site in San Bernardino County (SBC) California; nevertheless, there has been a perpetual low representation of Black vaccinees. To increase the number of Black persons vaccinated, a selected team at LLU leveraged a community-academic partnership model to address vaccine hesitancy and increase access to the COVID-19 vaccines. The objective of this study was to evaluate the number of Black persons vaccinated in community settings compared to the mass clinic.

The Utility of Community-Academic Partnerships in Promoting the Equitable Delivery of COVID-19 Vaccines in Black Communities
Methods. LLU developed a tiered approach to increase COVID-19 vaccinations within Black SBC communities. The first tier engaged faith leaders with the academic community in disseminating COVID-19 health information, the second included culturally representative LLU healthcare professionals in the delivery of COVID-19 educational webinars, and the third was to conduct low barrier, remote-site vaccination clinics, within targeted Black communities. Following these efforts, we compared the number of Black individuals vaccinated in the LLU mass clinic to those vaccinated in the community remote-site clinics.
Results. The remote-site COVID-19 vaccination clinics commenced in February 2021. From February 1 until April 30, 2021, 24,808 individuals were vaccinated in the LLU mass clinic with a first dose (Pfizer or Moderna) or single dose (Janssen) of a COVID-19 vaccine, however, only 908 (3.7%) were Black vaccinees. Contrastingly, the LLU remote site clinics vaccinated 1,542 individuals with a first or single dose of a COVID-19 vaccine. Of those vaccinees, 675 (44%) were Black.
Conclusion. The multi-tiered community approach (remote-site vaccination clinics) resulted in a necessary overrepresentation of Black vaccinees, previously underrepresented in the LLU traditional mass vaccination clinic effort (44% vs. 3.7%, respectively). Further research is warranted to examine the key elements to increase vaccinations amongst minoritized groups.

COVID-19 Vaccination Comparisons Between Models
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