Your search keyword '"Schwartz SP"' showing total 68 results

1. Cardiac deaths after a mass smallpox vaccination campaign--New York City, 1947

Author

Frieden, T, Schwartz, SP, Thorpe, LE, Karpati, AM, and Marx, MA

Subjects

Complications and side effects, Risk factors, Heart attack -- Risk factors -- Complications and side effects, Smallpox vaccines -- Complications and side effects, Smallpox vaccine -- Complications and side effects

Abstract

During the first wave of the 2003 smallpox vaccination campaign, two ischemic cardiac deaths occurred in civilian vaccinees aged 55 and 57 years, and one occurred in a military vaccinee [...]

Published

2003

2. Transient ventricular fibrillation. V

Author

Margolies Mp, Firenze A, and Schwartz Sp

Subjects

Quinidine, medicine.medical_specialty, business.industry, Heart block, medicine.disease, Quinidine sulphate, Oral administration, Internal medicine, Ventricular fibrillation, medicine, Cardiology, Transient (oscillation), Atrioventricular dissociation, Cardiology and Cardiovascular Medicine, business, medicine.drug

Published

1953

3. Book ReviewThe Therapeutic Nightmare: A report on the roles of the United States Food and Drug Administration, the American Medical Association, pharmaceutical- manufacturers, and others in connection with the irrational use of prescription drugs that may be worthless, injurious, or even lethal

Author

Schwartz Ls and Schwartz Sp

Subjects

business.industry, Medicine, General Medicine, Pharmacology, business, Digitalis Toxicity

Published

1966

4. Pre-existing Immunocompromising Conditions and Outcomes of Acute COVID-19 Patients Admitted for Pediatric Intensive Care.

Author

Rowan CM, LaBere B, Young CC, Zambrano LD, Newhams MM, Kucukak S, McNamara ER, Mack EH, Fitzgerald JC, Irby K, Maddux AB, Schuster JE, Kong M, Dapul H, Schwartz SP, Bembea MM, Loftis LL, Kolmar AR, Babbitt CJ, Nofziger RA, Hall MW, Gertz SJ, Cvijanovich NZ, Zinter MS, Halasa NB, Bradford TT, McLaughlin GE, Singh AR, Hobbs CV, Wellnitz K, Staat MA, Coates BM, Crandall HR, Maamari M, Havlin KM, Schwarz AJ, Carroll CL, Levy ER, Moffitt KL, Campbell AP, Randolph AG, and Chou J

Subjects

Humans, Child, Male, Female, Adolescent, Child, Preschool, Infant, Hospitalization statistics & numerical data, United States epidemiology, Hospital Mortality, COVID-19 mortality, COVID-19 epidemiology, COVID-19 therapy, Immunocompromised Host, Intensive Care Units, Pediatric statistics & numerical data, SARS-CoV-2

Abstract

Background: We aimed to determine if pre-existing immunocompromising conditions (ICCs) were associated with the presentation or outcome of patients with acute coronavirus disease 2019 (COVID-19) admitted for pediatric intensive care., Methods: Fifty-five hospitals in 30 US states reported cases through the Overcoming COVID-19 public health surveillance registry. Patients <21 years admitted 12 March 2020-30 December 2021 to the pediatric intensive care unit (PICU) or high-acuity unit for acute COVID-19 were included., Results: Of 1274 patients, 105 (8.2%) had an ICC, including 33 (31.4%) hematologic malignancies, 24 (22.9%) primary immunodeficiencies and disorders of hematopoietic cells, 19 (18.1%) nonmalignant organ failure with solid-organ transplantation, 16 (15.2%) solid tumors, and 13 (12.4%) autoimmune disorders. Patients with ICCs were older, had more underlying renal conditions, and had lower white blood cell and platelet counts than those without ICCs, but had similar clinical disease severity upon admission. In-hospital mortality from COVID-19 was higher (11.4% vs 4.6%, P = .005) and hospitalization was longer (P = .01) in patients with ICCs. New major morbidities upon discharge were not different between those with and without ICC (10.5% vs 13.9%, P = .40). In patients with ICCs, bacterial coinfection was more common in those with life-threatening COVID-19., Conclusions: In this national case series of patients <21 years of age with acute COVID-19 admitted for intensive care, existence of a prior ICCs were associated with worse clinical outcomes. Reassuringly, most patients with ICCs hospitalized in the PICU for severe acute COVID-19 survived and were discharged home without new severe morbidities., Competing Interests: Potential conflicts of interest. B. M. C. reports grants from NHLBI, American Lung Association, Doris Duke Foundation/Walder Foundation, and American Thoracic Society; payment for expert testimony from Tripplett Woolf Garretson; and participation on a multidisciplinary team for Sobi. N. B. H. reports grants from Sanofi, Quidel, and Merck. C. V. H. reports royalties, consulting fees, for Reviewer for Up To Date and Dynamed clinical databases; payment for presentations from Biofire; and expert consultation for the AstraZeneca FluMist Board. A. G. R. reports licenses as a Section Editor for Pediatric Critical Care Medicine, UpToDate, Inc; consulting fees from ThermoFisher, Inotrem; honoraria from a Grand Rounds presentation at St. Jude; support for meetings and/or travel from International Sepsis Forum, Institut Merieux, ThermoFisher; participation on an advisory board for the NIH Grace Study, REMAP-CAP, NIH-PREVENT-VILI; a medical advisory board member for Families Fighting Flu; chair member for International Sepsis Forum; and received reagents from Illumina, Inc. M. K. reports support for meetings and/or travel from the National Institute of Health (NIH) and a role on an advisory board for KultureCity. H. D. reports honoraria from Delex Pharma International, Inc. N. Z. C. reports grants from Cincinnati Children's Hospital Medical Center. J. C. F. reports grants from the National Institute of Diabetes and Digestive and Kidney Diseases (K23DK119463 and P50DK114786), and Pennsylvania CURE Grant. M. W. H. reports licenses from Kiadis, sub-board service for the American Board of Pediatrics, participation on a Data and Safety Monitoring Board (DSMB) for Abbvie, and receipt of drugs from Partner Therapeutics and Sobi. J. C. reports receipt of equipment from Illumina. B. L. reports receipt of an Immune Deficiency Foundation Research Grant. G. E. M. reports payment for expert testimony from Orlando Health, Bush Ross, Hall, Schiefflin & Smith, PA, Poole Brooks and Plumlee, PA, Hilltop Specialty Insurance, Smith, Hulsey, and Busey, PA. J. E. S. reports grants from the Food and Drug Administration (FDA), consulting fees from the Association for Professionals in Infection Control and Epidemiology (APIC), payment for presentations from the American Academy of Pediatrics, and participation on an advisory board for the American Association of Medical Colleges. All other authors report no potential conflicts. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (© The Author(s) 2024. Published by Oxford University Press on behalf of Infectious Diseases Society of America. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

5. Severe Pediatric Neurological Manifestations With SARS-CoV-2 or MIS-C Hospitalization and New Morbidity.

Author

Francoeur C, Alcamo AM, Robertson CL, Wainwright MS, Roa JD, Lovett ME, Stulce C, Yacoub M, Potera RM, Zivick E, Holloway A, Nagpal A, Wellnitz K, Even KM, Brunow de Carvalho W, Rodriguez IS, Schwartz SP, Walker TC, Campos-Miño S, Dervan LA, Geneslaw AS, Sewell TB, Pryce P, Silver WG, Lin JE, Vargas WS, Topjian A, McGuire JL, Domínguez Rojas JA, Tasayco-Muñoz J, Hong SJ, Muller WJ, Doerfler M, Williams CN, Drury K, Bhagat D, Nelson A, Price D, Dapul H, Santos L, Kahoud R, Appavu B, Guilliams KP, Agner SC, Walson KH, Rasmussen L, Pal R, Janas A, Ferrazzano P, Farias-Moeller R, Snooks KC, Chang CH, Iolster T, Erklauer JC, Jorro Baron F, Wassmer E, Yoong M, Jardine M, Mohammad Z, Deep A, Kendirli T, Lidsky K, Dallefeld S, Flockton H, Agrawal S, Siruguppa KS, Waak M, Gutiérrez-Mata A, Butt W, Bogantes-Ledezma S, Sevilla-Acosta F, Umaña-Calderón A, Ulate-Campos A, Yock-Corrales A, Talisa VB, Kanthimathinathan HK, Schober ME, and Fink EL

Subjects

Humans, Child, Female, Male, Child, Preschool, Adolescent, Prospective Studies, Infant, Severity of Illness Index, COVID-19 complications, COVID-19 epidemiology, Hospitalization statistics & numerical data, SARS-CoV-2, Systemic Inflammatory Response Syndrome epidemiology, Nervous System Diseases etiology, Nervous System Diseases epidemiology

Abstract

Importance: Neurological manifestations during acute SARS-CoV-2-related multisystem inflammatory syndrome in children (MIS-C) are common in hospitalized patients younger than 18 years and may increase risk of new neurocognitive or functional morbidity., Objective: To assess the association of severe neurological manifestations during a SARS-CoV-2-related hospital admission with new neurocognitive or functional morbidities at discharge., Design, Setting, and Participants: This prospective cohort study from 46 centers in 10 countries included patients younger than 18 years who were hospitalized for acute SARS-CoV-2 or MIS-C between January 2, 2020, and July 31, 2021., Exposure: Severe neurological manifestations, which included acute encephalopathy, seizures or status epilepticus, meningitis or encephalitis, sympathetic storming or dysautonomia, cardiac arrest, coma, delirium, and stroke., Main Outcomes and Measures: The primary outcome was new neurocognitive (based on the Pediatric Cerebral Performance Category scale) and/or functional (based on the Functional Status Scale) morbidity at hospital discharge. Multivariable logistic regression analyses were performed to examine the association of severe neurological manifestations with new morbidity in each SARS-CoV-2-related condition., Results: Overall, 3568 patients younger than 18 years (median age, 8 years [IQR, 1-14 years]; 54.3% male) were included in this study. Most (2980 [83.5%]) had acute SARS-CoV-2; the remainder (588 [16.5%]) had MIS-C. Among the patients with acute SARS-CoV-2, 536 (18.0%) had a severe neurological manifestation during hospitalization, as did 146 patients with MIS-C (24.8%). Among survivors with acute SARS-CoV-2, those with severe neurological manifestations were more likely to have new neurocognitive or functional morbidity at hospital discharge compared with those without severe neurological manifestations (27.7% [n = 142] vs 14.6% [n = 356]; P < .001). For survivors with MIS-C, 28.0% (n = 39) with severe neurological manifestations had new neurocognitive and/or functional morbidity at hospital discharge compared with 15.5% (n = 68) of those without severe neurological manifestations (P = .002). When adjusting for risk factors in those with severe neurological manifestations, both patients with acute SARS-CoV-2 (odds ratio, 1.85 [95% CI, 1.27-2.70]; P = .001) and those with MIS-C (odds ratio, 2.18 [95% CI, 1.22-3.89]; P = .009) had higher odds of having new neurocognitive and/or functional morbidity at hospital discharge., Conclusions and Relevance: The results of this study suggest that children and adolescents with acute SARS-CoV-2 or MIS-C and severe neurological manifestations may be at high risk for long-term impairment and may benefit from screening and early intervention to assist recovery.

Published

2024

6. Durability of Original Monovalent mRNA Vaccine Effectiveness Against COVID-19 Omicron-Associated Hospitalization in Children and Adolescents - United States, 2021-2023.

Author

Zambrano LD, Newhams MM, Simeone RM, Payne AB, Wu M, Orzel-Lockwood AO, Halasa NB, Calixte JM, Pannaraj PS, Mongkolrattanothai K, Boom JA, Sahni LC, Kamidani S, Chiotos K, Cameron MA, Maddux AB, Irby K, Schuster JE, Mack EH, Biggs A, Coates BM, Michelson KN, Bline KE, Nofziger RA, Crandall H, Hobbs CV, Gertz SJ, Heidemann SM, Bradford TT, Walker TC, Schwartz SP, Staat MA, Bhumbra SS, Hume JR, Kong M, Stockwell MS, Connors TJ, Cullimore ML, Flori HR, Levy ER, Cvijanovich NZ, Zinter MS, Maamari M, Bowens C, Zerr DM, Guzman-Cottrill JA, Gonzalez I, Campbell AP, and Randolph AG

Subjects

Humans, Adolescent, Child, United States epidemiology, mRNA Vaccines, Vaccine Efficacy, SARS-CoV-2, Hospitalization, RNA, Messenger, COVID-19 Vaccines, COVID-19 epidemiology, COVID-19 prevention & control

Abstract

Pediatric COVID-19 vaccination is effective in preventing COVID-19-related hospitalization, but duration of protection of the original monovalent vaccine during SARS-CoV-2 Omicron predominance merits evaluation, particularly given low coverage with updated COVID-19 vaccines. During December 19, 2021-October 29, 2023, the Overcoming COVID-19 Network evaluated vaccine effectiveness (VE) of ≥2 original monovalent COVID-19 mRNA vaccine doses against COVID-19-related hospitalization and critical illness among U.S. children and adolescents aged 5-18 years, using a case-control design. Too few children and adolescents received bivalent or updated monovalent vaccines to separately evaluate their effectiveness. Most case-patients (persons with a positive SARS-CoV-2 test result) were unvaccinated, despite the high frequency of reported underlying conditions associated with severe COVID-19. VE of the original monovalent vaccine against COVID-19-related hospitalizations was 52% (95% CI = 33%-66%) when the most recent dose was administered <120 days before hospitalization and 19% (95% CI = 2%-32%) if the interval was 120-364 days. VE of the original monovalent vaccine against COVID-19-related hospitalization was 31% (95% CI = 18%-43%) if the last dose was received any time within the previous year. VE against critical COVID-19-related illness, defined as receipt of noninvasive or invasive mechanical ventilation, vasoactive infusions, extracorporeal membrane oxygenation, and illness resulting in death, was 57% (95% CI = 21%-76%) when the most recent dose was received <120 days before hospitalization, 25% (95% CI = -9% to 49%) if it was received 120-364 days before hospitalization, and 38% (95% CI = 15%-55%) if the last dose was received any time within the previous year. VE was similar after excluding children and adolescents with documented immunocompromising conditions. Because of the low frequency of children who received updated COVID-19 vaccines and waning effectiveness of original monovalent doses, these data support CDC recommendations that all children and adolescents receive updated COVID-19 vaccines to protect against severe COVID-19., Competing Interests: All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. Danielle M. Zerr reports institutional support from Merck and consulting fees from AlloVir. Melissa S. Stockwell reports institutional support from the National Institutes of Health (NIH). Mary Allen Staat reports institutional support from NIH, Pfizer, Cepheid, and Merck and receipt of royalties from UpToDate for chapters on adoption and immunization. Jennifer E. Schuster reports institutional support from NIH, the Food and Drug Administration, and the State of Missouri, receipt of an honorarium from the Missouri chapter of the American Academy of Pediatrics (AAP) and participation on the advisory board of the Association of American Medical Colleges and the Association for Professionals in Infection Control and Epidemiology. Adrienne G. Randolph reports institutional support from NIH, royalties for UpToDate for work as a section editor, consulting fees from Inotrem, Inc. and ThermoFisher, Inc., receipt of honoraria from St. Jude Children’s Research Center and Volition, Inc., travel support from the International Sepsis Forum, participation on a data safety monitoring board for NIH and the Randomized Embedded Multifactorial Adaptive Platform for Community-acquired Pneumonia, serving as chair (2023–2024) of the International Sepsis Forum, and receipt of equipment from Illumina, Inc. (for institutional use). Pia S. Pannaraj reports institutional support from the National Institute on Allergy and Infectious Diseases, the National Institute of Child Health and Human Development, and AstraZeneca, receipt of honoraria from IDweek and Infectious Diseases in Children Symposium, payment for expert testimony from BBV Law Firm and Helsell Fetterman Law Firm, waiver of registration fee for IDweek meeting, uncompensated participation on three data safety monitoring boards 1) Phase II, Double-Blind, Multicenter, Randomized, Placebo-Controlled Trial to Assess the Safety, Reactogenicity and Immunogenicity of One or Two Doses of Multimeric-001 (M-001) Followed by One or Two Doses of an Influenza A/H7N9 Vaccine, 2) Therapeutic Fecal Transplant on the Gut Microbiome in Children with Ulcerative Colitis, and 3) Safety of Fecal Transplant in maintenance of pediatric Crohn's disease), and uncompensated services as president of the California Immunization Coalition and the AAP Committee on Infectious Diseases. Kanokporn Mongkolrattanothai reports institutional support from Gilead. Samina S. Bhumbra reports travel support from CDC to present a plenary lecture at the Conference on Emerging Infectious Diseases. Kathleen Chiotos reports institutional support from the Agency for Healthcare Research and Quality and travel support from IDWeek (2022), Society for Healthcare Epidemiology of America (2022), and Pediatric Academic Societies (2022). Bria M. Coates reports institutional support from the National Heart, Lung, and Blood Institute and the American Lung Association, payment for expert testimony from Triplett Woolf Garretson, and participation on a Sobi Data Safety Monitoring Board. Thomas J. Connors reports grant support from NIH. Melissa L. Cullimore reports institutional support from NIH. Heidi R. Flori reports receipt of consulting fees from Lucira Health for advisory role for rapid diagnostic devices for COVID-19. Shira J. Gertz reports ownership of Pfizer stock. Ivan Gonzalez reports receipt of honoraria from the Florida Chapter of AAP for educational infection control initiatives and travel support from the Florida Chapter of AAP for regional conference attendance. Judith A. Guzman-Cottrill reports receipt of a consulting contract from the Oregon Health Authority. Natasha B. Halasa reports receipt of investigator-initiated grants from Sanofi, Quidel, and Merck. Charlotte V. Hobbs reports receipt of consulting fees from Dynamed.com and royalties as a content reviewer for UpToDate.com. Janet R. Hume reports institutional support from NIH and uncompensated participation on a data safety monitoring board for a study at the University of Minnesota (Magnesium sulfate as adjuvant analgesia and its effect on opiate use by postoperative transplant patients in the pediatric intensive care unit). Satoshi Kamidani reports institutional support from NIH, Pfizer, Moderna, Meissa, and Bavarian Nordic and receipt of honoraria from AAP. Michele Kong reports institutional support from NIH and uncompensated service on the Board of Directors for Jefferson County Department of Health, Callahan Eye Hospital, University of Alabama at Birmingham, and KultureCity. Regina M. Simeone reports payments received by her spouse from a previously managed Pfizer investment, which was sold in April 2023. No other potential conflicts of interest were disclosed.

Published

2024

7. Characteristics and Clinical Outcomes of Vaccine-Eligible US Children Under-5 Years Hospitalized for Acute COVID-19 in a National Network.

Author

Zambrano LD, Newhams MM, Simeone RM, Fleming-Dutra KE, Halasa N, Wu M, Orzel-Lockwood AO, Kamidani S, Pannaraj PS, Chiotos K, Cameron MA, Maddux AB, Schuster JE, Crandall H, Kong M, Nofziger RA, Staat MA, Bhumbra SS, Irby K, Boom JA, Sahni LC, Hume JR, Gertz SJ, Maamari M, Bowens C, Levy ER, Bradford TT, Walker TC, Schwartz SP, Mack EH, Guzman-Cottrill JA, Hobbs CV, Zinter MS, Cvijanovich NZ, Bline KE, Hymes SR, Campbell AP, and Randolph AG

Subjects

Child, Humans, Child, Preschool, SARS-CoV-2, COVID-19 Vaccines, Hospitalization, Vaccination, COVID-19 epidemiology, COVID-19 prevention & control

Abstract

Background and Objectives: In June 2022, the mRNA COVID-19 vaccination was recommended for young children. We examined clinical characteristics and factors associated with vaccination status among vaccine-eligible young children hospitalized for acute COVID-19., Methods: We enrolled inpatients 8 months to <5 years of age with acute community-acquired COVID-19 across 28 US pediatric hospitals from September 20, 2022 to May 31, 2023. We assessed demographic and clinical factors, including the highest level of respiratory support, and vaccination status defined as unvaccinated, incomplete, or complete primary series [at least 2 (Moderna) or 3 (Pfizer-BioNTech) mRNA vaccine doses ≥14 days before hospitalization]., Results: Among 597 children, 174 (29.1%) patients were admitted to the intensive care unit and 75 (12.6%) had a life-threatening illness, including 51 (8.5%) requiring invasive mechanical ventilation. Children with underlying respiratory and neurologic/neuromuscular conditions more frequently received higher respiratory support. Only 4.5% of children hospitalized for COVID-19 (n = 27) had completed their primary COVID-19 vaccination series and 7.0% (n = 42) of children initiated but did not complete their primary series. Among 528 unvaccinated children, nearly half (n = 251) were previously healthy, 3 of them required extracorporeal membrane oxygenation for acute COVID-19 and 1 died., Conclusions: Most young children hospitalized for acute COVID-19, including most children admitted to the intensive care unit and with life-threatening illness, had not initiated COVID-19 vaccination despite being eligible. Nearly half of these children had no underlying conditions. Of the small percentage of children who initiated a COVID-19 primary series, most had not completed it before hospitalization., Competing Interests: The authors have no conflicts of interest to disclose., (Copyright © 2023 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2024

8. Extracorporeal Membrane Oxygenation Characteristics and Outcomes in Children and Adolescents With COVID-19 or Multisystem Inflammatory Syndrome Admitted to U.S. ICUs.

Author

Bembea MM, Loftis LL, Thiagarajan RR, Young CC, McCadden TP, Newhams MM, Kucukak S, Mack EH, Fitzgerald JC, Rowan CM, Maddux AB, Kolmar AR, Irby K, Heidemann S, Schwartz SP, Kong M, Crandall H, Havlin KM, Singh AR, Schuster JE, Hall MW, Wellnitz KA, Maamari M, Gaspers MG, Nofziger RA, Lim PPC, Carroll RW, Coronado Munoz A, Bradford TT, Cullimore ML, Halasa NB, McLaughlin GE, Pannaraj PS, Cvijanovich NZ, Zinter MS, Coates BM, Horwitz SM, Hobbs CV, Dapul H, Graciano AL, Butler AD, Patel MM, Zambrano LD, Campbell AP, and Randolph AG

Subjects

Adult, Humans, Child, Adolescent, SARS-CoV-2, Hospitalization, Intensive Care Units, Retrospective Studies, COVID-19 therapy, Extracorporeal Membrane Oxygenation

Abstract

Objectives: Extracorporeal membrane oxygenation (ECMO) has been used successfully to support adults with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)-related cardiac or respiratory failure refractory to conventional therapies. Comprehensive reports of children and adolescents with SARS-CoV-2-related ECMO support for conditions, including multisystem inflammatory syndrome in children (MIS-C) and acute COVID-19, are needed., Design: Case series of patients from the Overcoming COVID-19 public health surveillance registry., Setting: Sixty-three hospitals in 32 U.S. states reporting to the registry between March 15, 2020, and December 31, 2021., Patients: Patients less than 21 years admitted to the ICU meeting Centers for Disease Control criteria for MIS-C or acute COVID-19., Interventions: None., Measurements and Main Results: The final cohort included 2,733 patients with MIS-C ( n = 1,530; 37 [2.4%] requiring ECMO) or acute COVID-19 ( n = 1,203; 71 [5.9%] requiring ECMO). ECMO patients in both groups were older than those without ECMO support (MIS-C median 15.4 vs 9.9 yr; acute COVID-19 median 15.3 vs 13.6 yr). The body mass index percentile was similar in the MIS-C ECMO versus no ECMO groups (89.9 vs 85.8; p = 0.22) but higher in the COVID-19 ECMO versus no ECMO groups (98.3 vs 96.5; p = 0.03). Patients on ECMO with MIS-C versus COVID-19 were supported more often with venoarterial ECMO (92% vs 41%) for primary cardiac indications (87% vs 23%), had ECMO initiated earlier (median 1 vs 5 d from hospitalization), shorter ECMO courses (median 3.9 vs 14 d), shorter hospital length of stay (median 20 vs 52 d), lower in-hospital mortality (27% vs 37%), and less major morbidity at discharge in survivors (new tracheostomy, oxygen or mechanical ventilation need or neurologic deficit; 0% vs 11%, 0% vs 20%, and 8% vs 15%, respectively). Most patients with MIS-C requiring ECMO support (87%) were admitted during the pre-Delta (variant B.1.617.2) period, while most patients with acute COVID-19 requiring ECMO support (70%) were admitted during the Delta variant period., Conclusions: ECMO support for SARS-CoV-2-related critical illness was uncommon, but type, initiation, and duration of ECMO use in MIS-C and acute COVID-19 were markedly different. Like pre-pandemic pediatric ECMO cohorts, most patients survived to hospital discharge., Competing Interests: Dr. Bembea’s institution received funding from the National Institute of Neurological Disorders and Stroke (R01NS106292) and Grifols Investigator Sponsored Research Grant. Drs. Bembea, Heidemann, Zinter, and Randolph received support for article research from the National Institutes of Health (NIH). Dr. Thiagarjan’s institution received funding from the U.S. Department of Defense (Peer Reviewed Medical Research Project Clinical Trial Award No. W81XWH2210301 Trial of Indication-based Transfusion of Red blood cells in Extracorporeal Membrane Oxygenation); he received funding from Society of Critical Care Medicine and the Extracorporeal Life Support Organization. Drs. Young’s, McCadden’s, Newhams’s, Kucuak’s, Mack’s, Fitzgerald’s, Rowan’s, Maddux’s, Kolmar’s, Heidemann’s, Schwartz’s, Kong’s, Crandall’s, Singh’s, Schuster’s, Hall’s, Wellnitz’s, Maamari’s, Gaspers’s, Nofziger’s, Cullimore’s, Halasa’s, McLaughlin’s, Pannaraj’s, Cvijanovich’s, Coates’s, Horwitz’s, Hobbs’s, Dapul’s, and Randolph’s institutions received funding from the U.S. Centers for Disease Control and Prevention (CDC). Dr. McCadden disclosed work for hire. Dr. Newhams’ institution received funding from the National Institute of Allergy and Infectious Diseases. Drs. Fitzgerald’s, Kong’s, Cullimore’s, Cvijanovich’s, and Randolph’s institutions received funding from the NIH. Dr. Rowan’s institution received funding from the National Heart, Lung, and Blood Institute (NHLBI) (K23HL150244). Dr. Maddux’s institution received funding from the National Institute of Child Health and Human Development (K23HD096018). Drs. Irby, Crandall, Singh, Wellnitz, Nofziger, Bradford, McLaughlin, Coates, Hobbs, and Zambrano received support for article research from the CDC. Dr. Schuster’s institution received funding from Merck. Dr. Hall received funding from Abbvie, Kiadis, and the American Board of Pediatrics. Dr. Wellnitz’s institution received funding from the University of Pennsylvania (prime sponsor NIH) and the University of Nebraska (prime sponsor Administration for Strategic Preparedness and Response). Dr. Gaspers received funding from Abbott Laboratories. Dr. Munoz’s institution received funding from Boston’s Children’s Hospital; he received funding from the University of Texas Health Science Center at Houston. Dr. Halasa’s institution received funding from Sanofi. Dr. McLaughlin received funding from expert witness fees from two entities. Dr. Pannaraj’s institution received funding from AstraZeneca and Pfizer. Dr. Coates’ institution received funding from the NHLBI and the American Lung Association; she received funding from Sobi. Drs. Hobbs and Randolph received funding from UpToDate. Dr. Hobbs received funding from Dynamed.com; she disclosed that she was a speaker for Biomerieux 2021–2022. Drs. Zambrano and Campbell disclosed government work. Dr. Randolph had full access to all the data in the investigation and takes responsibility for the integrity of the data and the accuracy of the data analysis. The remaining authors have disclosed that they do not have any potential conflicts of interest., (Copyright © 2023 by the Society of Critical Care Medicine and the World Federation of Pediatric Intensive and Critical Care Societies.)

Published

2023

9. NFKB2 haploinsufficiency identified via screening for IFN-α2 autoantibodies in children and adolescents hospitalized with SARS-CoV-2-related complications.

Author

Bodansky A, Vazquez SE, Chou J, Novak T, Al-Musa A, Young C, Newhams M, Kucukak S, Zambrano LD, Mitchell A, Wang CY, Moffitt K, Halasa NB, Loftis LL, Schwartz SP, Walker TC, Mack EH, Fitzgerald JC, Gertz SJ, Rowan CM, Irby K, Sanders RC Jr, Kong M, Schuster JE, Staat MA, Zinter MS, Cvijanovich NZ, Tarquinio KM, Coates BM, Flori HR, Dahmer MK, Crandall H, Cullimore ML, Levy ER, Chatani B, Nofziger R, Geha RS, DeRisi J, Campbell AP, Anderson M, and Randolph AG

Subjects

Adult, Humans, Child, Adolescent, SARS-CoV-2, Autoantibodies, NF-kappa B, Haploinsufficiency, Leukocytes, Mononuclear, NF-kappa B p52 Subunit, COVID-19, Interferon Type I

Abstract

Background: Autoantibodies against type I IFNs occur in approximately 10% of adults with life-threatening coronavirus disease 2019 (COVID-19). The frequency of anti-IFN autoantibodies in children with severe sequelae of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection is unknown., Objective: We quantified anti-type I IFN autoantibodies in a multicenter cohort of children with severe COVID-19, multisystem inflammatory syndrome in children (MIS-C), and mild SARS-CoV-2 infections., Methods: Circulating anti-IFN-α2 antibodies were measured by a radioligand binding assay. Whole-exome sequencing, RNA sequencing, and functional studies of peripheral blood mononuclear cells were used to study any patients with levels of anti-IFN-α2 autoantibodies exceeding the assay's positive control., Results: Among 168 patients with severe COVID-19, 199 with MIS-C, and 45 with mild SARS-CoV-2 infections, only 1 had high levels of anti-IFN-α2 antibodies. Anti-IFN-α2 autoantibodies were not detected in patients treated with intravenous immunoglobulin before sample collection. Whole-exome sequencing identified a missense variant in the ankyrin domain of NFKB2, encoding the p100 subunit of nuclear factor kappa-light-chain enhancer of activated B cells, aka NF-κB, essential for noncanonical NF-κB signaling. The patient's peripheral blood mononuclear cells exhibited impaired cleavage of p100 characteristic of NFKB2 haploinsufficiency, an inborn error of immunity with a high prevalence of autoimmunity., Conclusions: High levels of anti-IFN-α2 autoantibodies in children and adolescents with MIS-C, severe COVID-19, and mild SARS-CoV-2 infections are rare but can occur in patients with inborn errors of immunity., (Copyright © 2023. Published by Elsevier Inc.)

Published

2023

10. Factors Associated With COVID-19 Non-vaccination in Adolescents Hospitalized Without COVID-19.

Author

Sahni LC, Price AM, Olson SM, Newhams MM, Pannaraj PS, Maddux AB, Halasa NB, Bline KE, Cameron MA, Schwartz SP, Walker TC, Irby K, Chiotos K, Nofziger RA, Mack EH, Smallcomb L, Bradford TT, Kamidani S, Tarquinio KM, Cvijanovich NZ, Schuster JE, Bhumbra SS, Levy ER, Hobbs CV, Cullimore ML, Coates BM, Heidemann SM, Gertz SJ, Kong M, Flori HR, Staat MA, Zinter MS, Hume JR, Chatani BM, Gaspers MG, Maamari M, Randolph AG, Patel MM, and Boom JA

Subjects

Adolescent, Humans, Child, COVID-19 Vaccines, BNT162 Vaccine, Vaccination, Electronic Health Records, COVID-19 epidemiology, COVID-19 prevention & control

Abstract

Background: Pfizer-BioNTech COVID-19 vaccine received emergency use authorization for persons ≥ 16 years in December 2020 and for adolescents 12-15 years in May 2021. Despite the clear benefits and favorable safety profile, vaccine uptake in adolescents has been suboptimal. We sought to assess factors associated with COVID-19 non-vaccination in adolescents 12-18 years of age., Methods: Between June 1, 2021 and April 29, 2022, we assessed factors associated with COVID-19 non-vaccination in hospitalized adolescents ages 12-18 years enrolled in the Overcoming COVID-19 vaccine effectiveness network. Demographic characteristics and clinical information were captured through parent interviews and/or electronic medical record abstraction; COVID-19 vaccination was assessed through documented sources. We assessed associations between receipt of the COVID-19 vaccine and demographic and clinical factors using univariate and multivariable logistic regression and estimated adjusted odds ratios (aOR) for each factor associated with non-vaccination., Results: Among 1665 hospitalized adolescents without COVID-19, 56% were unvaccinated. Unvaccinated adolescents were younger (median age 15.1 years vs. 15.4 years, p < .01) and resided in areas with higher social vulnerability index (SVI) scores (median 0.6 vs 0.5, p < .001) than vaccinated adolescents. Residence in the Midwest [aOR 2.60 (95% CI: 1.80, 3.79)] or South [aOR 2.49 (95% CI: 1.77, 3.54)] US census regions, rarely or never receiving influenza vaccine [aOR 5.31 (95% CI: 3.81, 7.47)], and rarely or never taking precautions against COVID-19 [aOR 3.17 (95% CI: 1.94, 5.31)] were associated with non-vaccination against COVID-19., Conclusions: Efforts to increase COVID-19 vaccination of adolescents should focus on persons with geographic, socioeconomic, and medical risk factors associated with non-vaccination., (© The Author(s) 2022. Published by Oxford University Press on behalf of The Journal of the Pediatric Infectious Diseases Society. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

11. BNT162b2 mRNA Vaccination Against Coronavirus Disease 2019 is Associated With a Decreased Likelihood of Multisystem Inflammatory Syndrome in Children Aged 5-18 Years-United States, July 2021 - April 2022.

Author

Zambrano LD, Newhams MM, Olson SM, Halasa NB, Price AM, Orzel AO, Young CC, Boom JA, Sahni LC, Maddux AB, Bline KE, Kamidani S, Tarquinio KM, Chiotos K, Schuster JE, Cullimore ML, Heidemann SM, Hobbs CV, Nofziger RA, Pannaraj PS, Cameron MA, Walker TC, Schwartz SP, Michelson KN, Coates BM, Flori HR, Mack EH, Smallcomb L, Gertz SJ, Bhumbra SS, Bradford TT, Levy ER, Kong M, Irby K, Cvijanovich NZ, Zinter MS, Bowens C, Crandall H, Hume JR, Patel MM, Campbell AP, and Randolph AG

Subjects

Child, Humans, SARS-CoV-2, BNT162 Vaccine, Vaccination, RNA, Messenger, COVID-19 prevention & control, Connective Tissue Diseases

Abstract

Background: Multisystem inflammatory syndrome in children (MIS-C), linked to antecedent severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection, is associated with considerable morbidity. Prevention of SARS-CoV-2 infection or coronavirus disease 2019 (COVID-19) by vaccination might also decrease MIS-C likelihood., Methods: In a multicenter, case-control, public health investigation of children ages 5-18 years hospitalized from 1 July 2021 to 7 April 2022, we compared the odds of being fully vaccinated (2 doses of BNT162b2 vaccine ≥28 days before hospital admission) between MIS-C case-patients and hospital-based controls who tested negative for SARS-CoV-2. These associations were examined by age group, timing of vaccination, and periods of Delta and Omicron variant predominance using multivariable logistic regression., Results: We compared 304 MIS-C case-patients (280 [92%] unvaccinated) with 502 controls (346 [69%] unvaccinated). MIS-C was associated with decreased likelihood of vaccination (adjusted OR [aOR]: .16; 95% CI: .10-.26), including among children ages 5-11 years (aOR: .22; 95% CI: .10-.52), ages 12-18 years (aOR: .10; 95% CI: .05-.19), and during the Delta (aOR: .06; 95% CI: .02-.15) and Omicron (aOR: .22; 95% CI: .11-.42) variant-predominant periods. This association persisted beyond 120 days after the second dose (aOR: .08; 95% CI: .03-.22) in 12-18-year-olds. Among all MIS-C case-patients, 187 (62%) required intensive care unit admission and 280 (92%) vaccine-eligible case-patients were unvaccinated., Conclusions: Vaccination with 2 doses of BNT162b2 is associated with reduced likelihood of MIS-C in children ages 5-18 years. Most vaccine-eligible hospitalized patients with MIS-C were unvaccinated., Competing Interests: Potential conflicts of interest. J. E. S. reports institutional support from Merck for an RSV research study, unrelated to the current work. A. G. R. reports institutional support from the National Institute of Allergy and Infectious Diseases (NIAID), National Institutes of Health (NIH); royalties from UpToDate as the Pediatric Critical Care Section Editor; and participation on a data safety monitoring board (DSMB) for a National Institute of Child Health and Human Development (NICHD)–funded study. P. S. P. reports institutional support from AstraZeneca and Pfizer, consulting fees from Sanofi-Pasteur and Seqirus, payment from law firms for expert testimony, participation on a Division of Microbiology and Infectious Diseases DSMB (paid to author), and an unpaid leadership role in the California Immunization Coalition. R. A. N. reports institutional support from NIH for participation in a multicenter influenza study. S. K. reports institutional support from NIH and Pfizer. C. V. H. reports consulting fees from Dynamed (clinical database, reviewer) and honoraria from Biofire/Biomerieux, and funding from CDC to the University of Mississippi Medical Center. N. B. H. reports grants from Sanofi and Quidel and an educational grant from Genentech. N. Z. C. reports a speaker’s registration discount at the Society of Critical Care Medicine meeting and grants or contracts from the NIH, unrelated to this work and paid to their institution. S. S. B. reports receipt of an NIH, NIAID training grant during 1 September 2019–31 August 2020 (T32AI007637). M. L. C. reports grants or contracts unrelated to this work from the CDC, paid to their institution. H. R. F. reports grants or contracts unrelated to this work from the National Heart, Lung, and Blood Institute (NHLBI) and NICHD, paid to their institution; support for attending meetings and/or travel from the Society of Critical Care Medicine; participation on a DSMB for a cardiothoracic surgery trial—single center—and for intrathecal chemotherapy trial; an unpaid leadership or fiduciary role on the Michigan Thoracic Society Executive Committee and PALISI Network Executive Committee; other financial or nonfinancial interests in the Lucira Health advisory committee and Aerogen Pharma—advisor—unfunded. J. R. H. reports grants or contracts unrelated to this work from the NICHD, paid to their institution; participation on a DSMB for institutional study at the University of Minnesota, “Magnesium sulfate as adjuvant analgesia and its effect on opiate use by post-operative transplant patients in the pediatric ICU” (Magnesium sulfate as Investigational New Drug [IND] per the Food and Drug Administration [FDA]; no financial reimbursements). E. R. L. reports the following grants or contracts unrelated to this work and paid to their institution—AI 144301-01: An Observational Cohort Study to Determine Late Outcomes and Immunological Responses after Infection with SARS-CoV-2 in Children with and without MIS-C; and NIH AI 154470-01: Immunobiology of Influenza Virus-related Critical Illness in Young Hosts. E. H. M. reports an unpaid role as Vice President of the South Carolina Chapter of the American Academy of Pediatrics. L. S. reports conference attendance allowance from Medical University of South Carolina. Matthew Zinter reports the following grant or contract unrelated to this work: NHLBI K23HL146936. All other authors report no potential conflicts. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (Published by Oxford University Press on behalf of Infectious Diseases Society of America 2022.)

Published

2023

12. Life-Threatening Complications of Influenza vs Coronavirus Disease 2019 (COVID-19) in US Children.

Author

Halasa NB, Spieker AJ, Young CC, Olson SM, Newhams MM, Amarin JZ, Moffitt KL, Nakamura MM, Levy ER, Soma VL, Talj R, Weiss SL, Fitzgerald JC, Mack EH, Maddux AB, Schuster JE, Coates BM, Hall MW, Schwartz SP, Schwarz AJ, Kong M, Spinella PC, Loftis LL, McLaughlin GE, Hobbs CV, Rowan CM, Bembea MM, Nofziger RA, Babbitt CJ, Bowens C, Flori HR, Gertz SJ, Zinter MS, Giuliano JS, Hume JR, Cvijanovich NZ, Singh AR, Crandall HA, Thomas NJ, Cullimore ML, Patel MM, and Randolph AG

Subjects

Humans, Child, SARS-CoV-2, Hospitalization, Respiration, Artificial, Obesity, Retrospective Studies, COVID-19 epidemiology, Influenza, Human complications, Influenza, Human epidemiology

Abstract

Background: Clinical differences between critical illness from influenza infection vs coronavirus disease 2019 (COVID-19) have not been well characterized in pediatric patients., Methods: We compared demographics, clinical characteristics, and outcomes of US children (aged 8 months to 17 years) admitted to the intensive care or high-acuity unit with influenza or COVID-19. Using mixed-effects models, we assessed the odds of death or requiring life support for influenza vs COVID-19 after adjustment for age, sex, race and Hispanic origin, and underlying conditions including obesity., Results: Children with influenza (n = 179) were younger than those with COVID-19 (n = 381; median, 5.2 years vs 13.8 years), less likely to be non-Hispanic Black (14.5% vs 27.6%) or Hispanic (24.0% vs 36.2%), and less likely to have ≥1 underlying condition (66.4% vs 78.5%) or be obese (21.4% vs 42.2%), and a shorter hospital stay (median, 5 days vs 7 days). They were similarly likely to require invasive mechanical ventilation (both 30.2%), vasopressor support (19.6% and 19.9%), or extracorporeal membrane oxygenation (2.2% and 2.9%). Four children with influenza (2.2%) and 11 children with COVID-19 (2.9%) died. The odds of death or requiring life support in children with influenza vs COVID-19 were similar (adjusted odds ratio, 1.30; 95% confidence interval, .78-2.15; P = .32)., Conclusions: Despite differences in demographics and clinical characteristics of children with influenza or COVID-19, the frequency of life-threatening complications was similar. Our findings highlight the importance of implementing prevention measures to reduce transmission and disease severity of influenza and COVID-19., Competing Interests: Potential conflicts of interest. N. B. H. reports grants or contracts from Sanofi and Quidell outside of the submitted work and an educational grant for honorarium from Genentech. M. M. B. reports grants or contracts from the National Institutes of Health (NIH)/National Institute of Neurological Disorders and Stroke, Grifols Investigator Sponsored Research Grant, and NIH/ Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD) outside of the submitted work and paid to institution. B. M. C. reports grants or contracts from the NIH, American Thoracic Society, and American Lung Association outside the submitted work and paid to institution and payment to author for expert testimony from Triplett Woolf Garretson, LLC. N. Z. C. reports grants or contracts from the NIH outside of the submitted work. H. R. F. reports grants or contracts from the NIH, National Heart, Lung, and Blood Institute (NHLBI), and NICHD outside of the submitted work; support for attending meetings and/or travel from the Society of Critical Care Medicine; participation on a data and safety monitoring board (DSMB) for a cardiothoracic surgery trial (single center) and a DSMB for an intrathecal chemotherapy trial; an unpaid position on the Michigan Thoracic Society Executive Committed and Pediatric Acute Lung Injury and Sepsis Investigators network Executive Committee; and the following other financial or nonfinancial interests: Lucira Health advisory committee and Aerogen Pharma advisory unfunded. M. W. H. reports grants or contracts from the NIH and royalties from Kiadis outside of the submitted work; participation on a DSMB or advisory board for AbbVie and La Jolla Pharmaceuticals (payment to author); and leadership or fiduciary role on the American Board of Pediatrics (payment to author). J. R. H. reports grants or contracts from the NIH–NICHD outside of the submitted work and participation on a DSMB for an institutional study at the University of Minnesota (no financial reimbursements). M. K. reports grants or contracts from the NIH outside of the submitted work to institution. E. R. L. reports grants or contracts from the NIH outside of the submitted work and paid to institution. M. M. Nakamura reports grants or contracts from Gilead for participation in their remdesivir trial. R. A. N. reports grants or contracts from the NIH outside of the submitted work. C. M. R. reports grants or contracts from the NIH outside of the submitted work and payment for honoraria to author for the Contemporary Critical Care Complications of SCT/Cellular Therapies Conference by MD Anderson. J. E. S. reports grants or contracts from Merck outside of the submitted work and paid to institution. M. S. Z. reports grants or contracts from the NIH outside of the submitted work and paid to institution. A. G. R. reports grants or contracts from the National Institute of Allergy and Infectious Diseases to institution outside of the submitted work; royalties or licenses from UpToDate as a Pediatric Critical Care Section Editor paid to author; and is an unpaid treasurer for International Sepsis Forum. M. L. C. reports grants or contracts to institution for projects unrelated to this work from the CDC. J.C.F. reports an NIH award unrelated to this study and paid to institution. C. V. H. reports payment or honoraria as a consultant for Biofire (bioMérieux). G. E. M. reports payment for expert testimony in a malpractice case involving influenza related death. All remaining authors: No reported conflicts of interest. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (© The Author(s) 2022. Published by Oxford University Press on behalf of Infectious Diseases Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

13. Changes in Distribution of Severe Neurologic Involvement in US Pediatric Inpatients With COVID-19 or Multisystem Inflammatory Syndrome in Children in 2021 vs 2020.

Author

LaRovere KL, Poussaint TY, Young CC, Newhams MM, Kucukak S, Irby K, Kong M, Schwartz SP, Walker TC, Bembea MM, Wellnitz K, Havlin KM, Cvijanovich NZ, Hall MW, Fitzgerald JC, Schuster JE, Hobbs CV, Halasa NB, Singh AR, Mack EH, Bradford TT, Gertz SJ, Schwarz AJ, Typpo KV, Loftis LL, Giuliano JS Jr, Horwitz SM, Biagas KV, Clouser KN, Rowan CM, Maddux AB, Soma VL, Babbitt CJ, Aguiar CL, Kolmar AR, Heidemann SM, Harvey H, Zambrano LD, Campbell AP, and Randolph AG

Subjects

Adolescent, Child, Humans, Male, United States epidemiology, Female, SARS-CoV-2, Inpatients, Pandemics, COVID-19 Vaccines, COVID-19 complications, COVID-19 epidemiology, Nervous System Diseases epidemiology, Nervous System Diseases etiology, Stroke epidemiology, Guillain-Barre Syndrome epidemiology

Abstract

Importance: 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.

Published

2023

14. Measurement of Severe Acute Respiratory Syndrome Coronavirus 2 Antigens in Plasma of Pediatric Patients With Acute Coronavirus Disease 2019 or Multisystem Inflammatory Syndrome in Children Using an Ultrasensitive and Quantitative Immunoassay.

Author

Sigal GB, Novak T, Mathew A, Chou J, Zhang Y, Manjula N, Bathala P, Joe J, Padmanabhan N, Romero D, Allegri-Machado G, Joerger J, Loftis LL, Schwartz SP, Walker TC, Fitzgerald JC, Tarquinio KM, Zinter MS, Schuster JE, Halasa NB, Cullimore ML, Maddux AB, Staat MA, Irby K, Flori HR, Coates BM, Crandall H, Gertz SJ, Randolph AG, and Pollock NR

Subjects

Adult, Antigens, Viral, Child, Humans, Immunoassay, SARS-CoV-2, Systemic Inflammatory Response Syndrome diagnosis, COVID-19 complications, COVID-19 diagnosis

Abstract

Background: Detection of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) antigens in blood has high sensitivity in adults with acute coronavirus disease 2019 (COVID-19), but sensitivity in pediatric patients is unclear. Recent data suggest that persistent SARS-CoV-2 spike antigenemia may contribute to multisystem inflammatory syndrome in children (MIS-C). We quantified SARS-CoV-2 nucleocapsid (N) and spike (S) antigens in blood of pediatric patients with either acute COVID-19 or MIS-C using ultrasensitive immunoassays (Meso Scale Discovery)., Methods: Plasma was collected from inpatients (<21 years) enrolled across 15 hospitals in 15 US states. Acute COVID-19 patients (n = 36) had a range of disease severity and positive nasopharyngeal SARS-CoV-2 RT-PCR within 24 hours of blood collection. Patients with MIS-C (n = 53) met CDC criteria and tested positive for SARS-CoV-2 (RT-PCR or serology). Controls were patients pre-COVID-19 (n = 67) or within 24 hours of negative RT-PCR (n = 43)., Results: Specificities of N and S assays were 95-97% and 100%, respectively. In acute COVID-19 patients, N/S plasma assays had 89%/64% sensitivity; sensitivities in patients with concurrent nasopharyngeal swab cycle threshold (Ct) ≤35 were 93%/63%. Antigen concentrations ranged from 1.28-3844 pg/mL (N) and 1.65-1071 pg/mL (S) and correlated with disease severity. In MIS-C, antigens were detected in 3/53 (5.7%) samples (3 N-positive: 1.7, 1.9, 121.1 pg/mL; 1 S-positive: 2.3 pg/mL); the patient with highest N had positive nasopharyngeal RT-PCR (Ct 22.3) concurrent with blood draw., Conclusions: Ultrasensitive blood SARS-CoV-2 antigen measurement has high diagnostic yield in children with acute COVID-19. Antigens were undetectable in most MIS-C patients, suggesting that persistent antigenemia is not a common contributor to MIS-C pathogenesis., Competing Interests: Potential conflicts of Interest . G. B. S., A. M., N. M., P. B, J. J., N. P., and D. R. are employees of Meso Scale Diagnostics. N. B. H. receives unrelated research support from Sanofi and Quidel. J. E. S. has received unrelated research support from Merck. H. R. F. is an Advisor for LuciraHealth. A. G. R. reports grants or contracts from National Institute of Allergy and Infectious Diseases to the institution outside of the submitted work; royalties or licenses from UpToDate for Pediatric Critical Care Section Editor; and is an unpaid Treasurer for International Sepsis Forum. All other authors report no potential conflicts. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (© The Author(s) 2022. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published

2022

15. Health Impairments in Children and Adolescents After Hospitalization for Acute COVID-19 or MIS-C.

Author

Maddux AB, Berbert L, Young CC, Feldstein LR, Zambrano LD, Kucukak S, Newhams MM, Miller K, FitzGerald MM, He J, Halasa NB, Cvijanovich NZ, Loftis LL, Walker TC, Schwartz SP, Gertz SJ, Tarquinio KM, Fitzgerald JC, Kong M, Schuster JE, Mack EH, Hobbs CV, Rowan CM, Staat MA, Zinter MS, Irby K, Crandall H, Flori H, Cullimore ML, Nofziger RA, Shein SL, Gaspers MG, Hume JR, Levy ER, Chen SR, Patel MM, Tenforde MW, Weller E, Campbell AP, and Randolph AG

Subjects

Adolescent, Adult, Aftercare, Child, Hospitalization, Humans, Obesity, Patient Discharge, Prospective Studies, SARS-CoV-2, Systemic Inflammatory Response Syndrome, United States epidemiology, Young Adult, COVID-19 complications, COVID-19 epidemiology

Abstract

Objectives: To evaluate risk factors for postdischarge sequelae in children and adolescents hospitalized for acute coronavirus disease 2019 (COVID-19) or multisystem inflammatory syndrome in children (MIS-C)., Methods: Multicenter prospective cohort study conducted in 25 United States pediatric hospitals. Patients <21-years-old, hospitalized May 2020 to May 2021 for acute COVID-19 or MIS-C with follow-up 2 to 4 months after admission. We assessed readmissions, persistent symptoms or activity impairment, and new morbidities. Multivariable regression was used to calculate adjusted risk ratios (aRR) and 95% confidence intervals (CI)., Results: Of 358 eligible patients, 2 to 4 month survey data were available for 119 of 155 (76.8%) with acute COVID-19 and 160 of 203 (78.8%) with MIS-C. Thirteen (11%) patients with acute COVID-19 and 12 (8%) with MIS-C had a readmission. Thirty-two (26.9%) patients with acute COVID-19 had persistent symptoms (22.7%) or activity impairment (14.3%) and 48 (30.0%) with MIS-C had persistent symptoms (20.0%) or activity impairment (21.3%). For patients with acute COVID-19, persistent symptoms (aRR, 1.29 [95% CI, 1.04-1.59]) and activity impairment (aRR, 1.37 [95% CI, 1.06-1.78]) were associated with more organ systems involved. Patients with MIS-C and pre-existing respiratory conditions more frequently had persistent symptoms (aRR, 3.09 [95% CI, 1.55-6.14]) and those with obesity more frequently had activity impairment (aRR, 2.52 [95% CI, 1.35-4.69]). New morbidities were infrequent (9% COVID-19, 1% MIS-C)., Conclusions: Over 1 in 4 children hospitalized with acute COVID-19 or MIS-C experienced persistent symptoms or activity impairment for at least 2 months. Patients with MIS-C and respiratory conditions or obesity are at higher risk of prolonged recovery.

Published

2022

16. Author Correction: Cross-reactive immunity against the SARS-CoV-2 Omicron variant is low in pediatric patients with prior COVID-19 or MIS-C.

Author

Tang J, Novak T, Hecker J, Grubbs G, Zahra FT, Bellusci L, Pourhashemi S, Chou J, Moffitt K, Halasa NB, Schwartz SP, Walker TC, Tarquinio KM, Zinter MS, Staat MA, Gertz SJ, Cvijanovich NZ, Schuster JE, Loftis LL, Coates BM, Mack EH, Irby K, Fitzgerald JC, Rowan CM, Kong M, Flori HR, Maddux AB, Shein SL, Crandall H, Hume JR, Hobbs CV, Tremoulet AH, Shimizu C, Burns JC, Chen SR, Moon HK, Lange C, Randolph AG, and Khurana S

Published

2022

17. Maternal Vaccination and Risk of Hospitalization for Covid-19 among Infants.

Author

Halasa NB, Olson SM, Staat MA, Newhams MM, Price AM, Pannaraj PS, Boom JA, Sahni LC, Chiotos K, Cameron MA, Bline KE, Hobbs CV, Maddux AB, Coates BM, Michelson KN, Heidemann SM, Irby K, Nofziger RA, Mack EH, Smallcomb L, Schwartz SP, Walker TC, Gertz SJ, Schuster JE, Kamidani S, Tarquinio KM, Bhumbra SS, Maamari M, Hume JR, Crandall H, Levy ER, Zinter MS, Bradford TT, Flori HR, Cullimore ML, Kong M, Cvijanovich NZ, Gilboa SM, Polen KN, Campbell AP, Randolph AG, and Patel MM

Subjects

Female, Humans, Infant, Mothers, Pregnancy, SARS-CoV-2, Vaccination statistics & numerical data, Vaccines, Synthetic, COVID-19 epidemiology, COVID-19 prevention & control, COVID-19 Vaccines adverse effects, COVID-19 Vaccines therapeutic use, Hospitalization statistics & numerical data, Pregnancy Complications, Infectious epidemiology, Pregnancy Complications, Infectious prevention & control, mRNA Vaccines adverse effects, mRNA Vaccines therapeutic use

Abstract

Background: Infants younger than 6 months of age are at high risk for complications of coronavirus disease 2019 (Covid-19) and are not eligible for vaccination. Transplacental transfer of antibodies against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) after maternal Covid-19 vaccination may confer protection against Covid-19 in infants., Methods: We used a case-control test-negative design to assess the effectiveness of maternal vaccination during pregnancy against hospitalization for Covid-19 among infants younger than 6 months of age. Between July 1, 2021, and March 8, 2022, we enrolled infants hospitalized for Covid-19 (case infants) and infants hospitalized without Covid-19 (control infants) at 30 hospitals in 22 states. We estimated vaccine effectiveness by comparing the odds of full maternal vaccination (two doses of mRNA vaccine) among case infants and control infants during circulation of the B.1.617.2 (delta) variant (July 1, 2021, to December 18, 2021) and the B.1.1.259 (omicron) variant (December 19, 2021, to March 8, 2022)., Results: A total of 537 case infants (181 of whom had been admitted to a hospital during the delta period and 356 during the omicron period; median age, 2 months) and 512 control infants were enrolled and included in the analyses; 16% of the case infants and 29% of the control infants had been born to mothers who had been fully vaccinated against Covid-19 during pregnancy. Among the case infants, 113 (21%) received intensive care (64 [12%] received mechanical ventilation or vasoactive infusions). Two case infants died from Covid-19; neither infant's mother had been vaccinated during pregnancy. The effectiveness of maternal vaccination against hospitalization for Covid-19 among infants was 52% (95% confidence interval [CI], 33 to 65) overall, 80% (95% CI, 60 to 90) during the delta period, and 38% (95% CI, 8 to 58) during the omicron period. Effectiveness was 69% (95% CI, 50 to 80) when maternal vaccination occurred after 20 weeks of pregnancy and 38% (95% CI, 3 to 60) during the first 20 weeks of pregnancy., Conclusions: Maternal vaccination with two doses of mRNA vaccine was associated with a reduced risk of hospitalization for Covid-19, including for critical illness, among infants younger than 6 months of age. (Funded by the Centers for Disease Control and Prevention.)., (Copyright © 2022 Massachusetts Medical Society.)

Published

2022

18. Cross-reactive immunity against the SARS-CoV-2 Omicron variant is low in pediatric patients with prior COVID-19 or MIS-C.

Author

Tang J, Novak T, Hecker J, Grubbs G, Zahra FT, Bellusci L, Pourhashemi S, Chou J, Moffitt K, Halasa NB, Schwartz SP, Walker TC, Tarquinio KM, Zinter MS, Staat MA, Gertz SJ, Cvijanovich NZ, Schuster JE, Loftis LL, Coates BM, Mack EH, Irby K, Fitzgerald JC, Rowan CM, Kong M, Flori HR, Maddux AB, Shein SL, Crandall H, Hume JR, Hobbs CV, Tremoulet AH, Shimizu C, Burns JC, Chen SR, Moon HK, Lange C, Randolph AG, and Khurana S

Subjects

Adolescent, Antibodies, Viral, Child, Child, Preschool, Humans, Membrane Glycoproteins, Neutralization Tests, Spike Glycoprotein, Coronavirus, Systemic Inflammatory Response Syndrome, Viral Envelope Proteins, COVID-19 complications, SARS-CoV-2

Abstract

Neutralization capacity of antibodies against Omicron after a prior SARS-CoV-2 infection in children and adolescents is not well studied. Therefore, we evaluated virus-neutralizing capacity against SARS-CoV-2 Alpha, Beta, Gamma, Delta and Omicron variants by age-stratified analyses (<5, 5-11, 12-21 years) in 177 pediatric patients hospitalized with severe acute COVID-19, acute MIS-C, and in convalescent samples of outpatients with mild COVID-19 during 2020 and early 2021. Across all patients, less than 10% show neutralizing antibody titers against Omicron. Children <5 years of age hospitalized with severe acute COVID-19 have lower neutralizing antibodies to SARS-CoV-2 variants compared with patients >5 years of age. As expected, convalescent pediatric COVID-19 and MIS-C cohorts demonstrate higher neutralization titers than hospitalized acute COVID-19 patients. Overall, children and adolescents show some loss of cross-neutralization against all variants, with the most pronounced loss against Omicron. In contrast to SARS-CoV-2 infection, children vaccinated twice demonstrated higher titers against Alpha, Beta, Gamma, Delta and Omicron. These findings can influence transmission, re-infection and the clinical disease outcome from emerging SARS-CoV-2 variants and supports the need for vaccination in children., (© 2022. This is a U.S. government work and not under copyright protection in the U.S.; foreign copyright protection may apply.)

Published

2022

19. BNT162b2 Protection against the Omicron Variant in Children and Adolescents.

Author

Price AM, Olson SM, Newhams MM, Halasa NB, Boom JA, Sahni LC, Pannaraj PS, Irby K, Bline KE, Maddux AB, Nofziger RA, Cameron MA, Walker TC, Schwartz SP, Mack EH, Smallcomb L, Schuster JE, Hobbs CV, Kamidani S, Tarquinio KM, Bradford TT, Levy ER, Chiotos K, Bhumbra SS, Cvijanovich NZ, Heidemann SM, Cullimore ML, Gertz SJ, Coates BM, Staat MA, Zinter MS, Kong M, Chatani BM, Hume JR, Typpo KV, Maamari M, Flori HR, Tenforde MW, Zambrano LD, Campbell AP, Patel MM, and Randolph AG

Subjects

Adolescent, COVID-19 Vaccines therapeutic use, Case-Control Studies, Child, Child, Preschool, Critical Illness therapy, Hospitalization, Humans, Vaccine Efficacy, Vaccines, Synthetic therapeutic use, mRNA Vaccines therapeutic use, BNT162 Vaccine therapeutic use, COVID-19 prevention & control, SARS-CoV-2

Abstract

Background: Spread of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) B.1.1.529 (omicron) variant, which led to increased U.S. hospitalizations for coronavirus disease 2019 (Covid-19), generated concern about immune evasion and the duration of protection from vaccines in children and adolescents., Methods: Using a case-control, test-negative design, we assessed vaccine effectiveness against laboratory-confirmed Covid-19 leading to hospitalization and against critical Covid-19 (i.e., leading to receipt of life support or to death). From July 1, 2021, to February 17, 2022, we enrolled case patients with Covid-19 and controls without Covid-19 at 31 hospitals in 23 states. We estimated vaccine effectiveness by comparing the odds of antecedent full vaccination (two doses of BNT162b2 messenger RNA vaccine) at least 14 days before illness among case patients and controls, according to time since vaccination for patients 12 to 18 years of age and in periods coinciding with circulation of B.1.617.2 (delta) (July 1, 2021, to December 18, 2021) and omicron (December 19, 2021, to February 17, 2022) among patients 5 to 11 and 12 to 18 years of age., Results: We enrolled 1185 case patients (1043 [88%] of whom were unvaccinated, 291 [25%] of whom received life support, and 14 of whom died) and 1627 controls. During the delta-predominant period, vaccine effectiveness against hospitalization for Covid-19 among adolescents 12 to 18 years of age was 93% (95% confidence interval [CI], 89 to 95) 2 to 22 weeks after vaccination and was 92% (95% CI, 80 to 97) at 23 to 44 weeks. Among adolescents 12 to 18 years of age (median interval since vaccination, 162 days) during the omicron-predominant period, vaccine effectiveness was 40% (95% CI, 9 to 60) against hospitalization for Covid-19, 79% (95% CI, 51 to 91) against critical Covid-19, and 20% (95% CI, -25 to 49) against noncritical Covid-19. During the omicron period, vaccine effectiveness against hospitalization among children 5 to 11 years of age was 68% (95% CI, 42 to 82; median interval since vaccination, 34 days)., Conclusions: BNT162b2 vaccination reduced the risk of omicron-associated hospitalization by two thirds among children 5 to 11 years of age. Although two doses provided lower protection against omicron-associated hospitalization than against delta-associated hospitalization among adolescents 12 to 18 years of age, vaccination prevented critical illness caused by either variant. (Funded by the Centers for Disease Control and Prevention.)., (Copyright © 2022 Massachusetts Medical Society.)

Published

2022

20. Prevalence and Risk Factors of Neurologic Manifestations in Hospitalized Children Diagnosed with Acute SARS-CoV-2 or MIS-C.

Author

Fink EL, Robertson CL, Wainwright MS, Roa JD, Lovett ME, Stulce C, Yacoub M, Potera RM, Zivick E, Holloway A, Nagpal A, Wellnitz K, Czech T, Even KM, Brunow de Carvalho W, Rodriguez IS, Schwartz SP, Walker TC, Campos-Miño S, Dervan LA, Geneslaw AS, Sewell TB, Pryce P, Silver WG, Lin JE, Vargas WS, Topjian A, Alcamo AM, McGuire JL, Domínguez Rojas JA, Muñoz JT, Hong SJ, Muller WJ, Doerfler M, Williams CN, Drury K, Bhagat D, Nelson A, Price D, Dapul H, Santos L, Kahoud R, Francoeur C, Appavu B, Guilliams KP, Agner SC, Walson KH, Rasmussen L, Janas A, Ferrazzano P, Farias-Moeller R, Snooks KC, Chang CH, Yun J, and Schober ME

Subjects

Acute Disease, Adolescent, Brain Diseases epidemiology, Brain Diseases etiology, COVID-19 epidemiology, Child, Child, Preschool, Cross-Sectional Studies, Female, Headache epidemiology, Headache etiology, Humans, Infant, Intensive Care Units, Pediatric statistics & numerical data, Logistic Models, Male, Nervous System Diseases etiology, Prevalence, Risk Factors, South America epidemiology, United States epidemiology, COVID-19 complications, Nervous System Diseases epidemiology, SARS-CoV-2, Systemic Inflammatory Response Syndrome epidemiology

Abstract

Background: Our objective was to characterize the frequency, early impact, and risk factors for neurological manifestations in hospitalized children with acute severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection or multisystem inflammatory syndrome in children (MIS-C)., Methods: Multicenter, cross-sectional study of neurological manifestations in children aged <18 years hospitalized with positive SARS-CoV-2 test or clinical diagnosis of a SARS-CoV-2-related condition between January 2020 and April 2021. Multivariable logistic regression to identify risk factors for neurological manifestations was performed., Results: Of 1493 children, 1278 (86%) were diagnosed with acute SARS-CoV-2 and 215 (14%) with MIS-C. Overall, 44% of the cohort (40% acute SARS-CoV-2 and 66% MIS-C) had at least one neurological manifestation. The most common neurological findings in children with acute SARS-CoV-2 and MIS-C diagnosis were headache (16% and 47%) and acute encephalopathy (15% and 22%), both P < 0.05. Children with neurological manifestations were more likely to require intensive care unit (ICU) care (51% vs 22%), P < 0.001. In multivariable logistic regression, children with neurological manifestations were older (odds ratio [OR] 1.1 and 95% confidence interval [CI] 1.07 to 1.13) and more likely to have MIS-C versus acute SARS-CoV-2 (OR 2.16, 95% CI 1.45 to 3.24), pre-existing neurological and metabolic conditions (OR 3.48, 95% CI 2.37 to 5.15; and OR 1.65, 95% CI 1.04 to 2.66, respectively), and pharyngeal (OR 1.74, 95% CI 1.16 to 2.64) or abdominal pain (OR 1.43, 95% CI 1.03 to 2.00); all P < 0.05., Conclusions: In this multicenter study, 44% of children hospitalized with SARS-CoV-2-related conditions experienced neurological manifestations, which were associated with ICU admission and pre-existing neurological condition. Posthospital assessment for, and support of, functional impairment and neuroprotective strategies are vitally needed., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

21. Effectiveness of BNT162b2 Vaccine against Critical Covid-19 in Adolescents.

Author

Olson SM, Newhams MM, Halasa NB, Price AM, Boom JA, Sahni LC, Pannaraj PS, Irby K, Walker TC, Schwartz SP, Maddux AB, Mack EH, Bradford TT, Schuster JE, Nofziger RA, Cameron MA, Chiotos K, Cullimore ML, Gertz SJ, Levy ER, Kong M, Cvijanovich NZ, Staat MA, Kamidani S, Chatani BM, Bhumbra SS, Bline KE, Gaspers MG, Hobbs CV, Heidemann SM, Maamari M, Flori HR, Hume JR, Zinter MS, Michelson KN, Zambrano LD, Campbell AP, Patel MM, and Randolph AG

Subjects

Adolescent, COVID-19 mortality, COVID-19 therapy, COVID-19 Testing, COVID-19 Vaccines, Case-Control Studies, Child, Female, Hospitalization statistics & numerical data, Humans, Immunization, Secondary, Intensive Care Units, Life Support Care, Male, Patient Acuity, SARS-CoV-2, United States, BNT162 Vaccine, COVID-19 prevention & control, Vaccine Efficacy

Abstract

Background: The increasing incidence of pediatric hospitalizations associated with coronavirus disease 2019 (Covid-19) caused by the B.1.617.2 (delta) variant of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in the United States has offered an opportunity to assess the real-world effectiveness of the BNT162b2 messenger RNA vaccine in adolescents between 12 and 18 years of age., Methods: We used a case-control, test-negative design to assess vaccine effectiveness against Covid-19 resulting in hospitalization, admission to an intensive care unit (ICU), the use of life-supporting interventions (mechanical ventilation, vasopressors, and extracorporeal membrane oxygenation), or death. Between July 1 and October 25, 2021, we screened admission logs for eligible case patients with laboratory-confirmed Covid-19 at 31 hospitals in 23 states. We estimated vaccine effectiveness by comparing the odds of antecedent full vaccination (two doses of BNT162b2) in case patients as compared with two hospital-based control groups: patients who had Covid-19-like symptoms but negative results on testing for SARS-CoV-2 (test-negative) and patients who did not have Covid-19-like symptoms (syndrome-negative)., Results: A total of 445 case patients and 777 controls were enrolled. Overall, 17 case patients (4%) and 282 controls (36%) had been fully vaccinated. Of the case patients, 180 (40%) were admitted to the ICU, and 127 (29%) required life support; only 2 patients in the ICU had been fully vaccinated. The overall effectiveness of the BNT162b2 vaccine against hospitalization for Covid-19 was 94% (95% confidence interval [CI], 90 to 96); the effectiveness was 95% (95% CI, 91 to 97) among test-negative controls and 94% (95% CI, 89 to 96) among syndrome-negative controls. The effectiveness was 98% against ICU admission and 98% against Covid-19 resulting in the receipt of life support. All 7 deaths occurred in patients who were unvaccinated., Conclusions: Among hospitalized adolescent patients, two doses of the BNT162b2 vaccine were highly effective against Covid-19-related hospitalization and ICU admission or the receipt of life support. (Funded by the Centers for Disease Control and Prevention.)., (Copyright © 2022 Massachusetts Medical Society.)

Published

2022

22. Effectiveness of Maternal Vaccination with mRNA COVID-19 Vaccine During Pregnancy Against COVID-19-Associated Hospitalization in Infants Aged <6 Months - 17 States, July 2021-January 2022.

Author

Halasa NB, Olson SM, Staat MA, Newhams MM, Price AM, Boom JA, Sahni LC, Cameron MA, Pannaraj PS, Bline KE, Bhumbra SS, Bradford TT, Chiotos K, Coates BM, Cullimore ML, Cvijanovich NZ, Flori HR, Gertz SJ, Heidemann SM, Hobbs CV, Hume JR, Irby K, Kamidani S, Kong M, Levy ER, Mack EH, Maddux AB, Michelson KN, Nofziger RA, Schuster JE, Schwartz SP, Smallcomb L, Tarquinio KM, Walker TC, Zinter MS, Gilboa SM, Polen KN, Campbell AP, Randolph AG, and Patel MM

Subjects

Case-Control Studies, Female, Hospitals, Pediatric, Humans, Immunization, Passive, Infant, Infant, Newborn, Pregnancy, United States epidemiology, COVID-19 prevention & control, COVID-19 Vaccines immunology, Hospitalization statistics & numerical data, Immunity, Maternally-Acquired, SARS-CoV-2 immunology, Vaccines, Synthetic immunology, mRNA Vaccines immunology

Abstract

COVID-19 vaccination is recommended for persons who are pregnant, breastfeeding, trying to get pregnant now, or who might become pregnant in the future, to protect them from COVID-19. § Infants are at risk for life-threatening complications from COVID-19, including acute respiratory failure (1). Evidence from other vaccine-preventable diseases suggests that maternal immunization can provide protection to infants, especially during the high-risk first 6 months of life, through passive transplacental antibody transfer (2). Recent studies of COVID-19 vaccination during pregnancy suggest the possibility of transplacental transfer of SARS-CoV-2-specific antibodies that might provide protection to infants (3-5); however, no epidemiologic evidence currently exists for the protective benefits of maternal immunization during pregnancy against COVID-19 in infants. The Overcoming COVID-19 network conducted a test-negative, case-control study at 20 pediatric hospitals in 17 states during July 1, 2021-January 17, 2022, to assess effectiveness of maternal completion of a 2-dose primary mRNA COVID-19 vaccination series during pregnancy against COVID-19 hospitalization in infants. Among 379 hospitalized infants aged <6 months (176 with COVID-19 [case-infants] and 203 without COVID-19 [control-infants]), the median age was 2 months, 21% had at least one underlying medical condition, and 22% of case- and control-infants were born premature (<37 weeks gestation). Effectiveness of maternal vaccination during pregnancy against COVID-19 hospitalization in infants aged <6 months was 61% (95% CI = 31%-78%). Completion of a 2-dose mRNA COVID-19 vaccination series during pregnancy might help prevent COVID-19 hospitalization among infants aged <6 months., Competing Interests: All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. Adrienne G. Randolph reports institutional support from the National Institute of Allergy and Infectious Diseases and National Institutes of Health (NIH) and being the UpToDate Pediatric Critical Care Section Editor. Matt S. Zinter reports institutional support from the National Heart, Lung, and Blood Institute (NHLBI), NIH and the American Thoracic Society. Laura Smallcomb reports support from the Medical University of South Carolina for conference attendance. Jennifer E. Schuster reports institutional support from Merck. Ryan A. Nofziger reports institutional support from NIH. Emily R. Levy reports institutional support from NIH. Michele Kong reports institutional support from NIH. Satoshi Kamidani reports institutional support from NIH and Pfizer. Janet R. Hume reports institutional support from the National Institute for Child Health and Development, NIH, and serving on a data safety monitoring board for an institutional study of magnesium for analgesia in complex medical patients. Charlotte V. Hobbs reports consultant fees from BioFire (bioMérieux). Natalie Z. Cvijanovich reports institutional support from NIH. Bria M. Coates reports institutional support from NHLBI, NIH, the American Lung Association, and the American Thoracic Society. Kathleen Chiotos reports institutional support from the Agency for Healthcare Research and Quality and serving as the Society for Healthcare Epidemiology of America Research Network Chair. Samina S. Bhumbra reports receipt of an NIH, National Institute for Allergy and Infectious Diseases training grant. Pia S. Pannaraj reports institutional support from AstraZeneca and Pfizer, consulting fees from Sanofi-Pasteur and Seqirus, payment from law firms for expert testimony, serving in the Division of Microbiology and Infectious Diseases, and unpaid service on the California Immunization Coalition. Mary A. Staat reports institutional support from NIH and receipt of lecture fees from the American Academy of Pediatrics for PREP ID Course. Natasha B. Halasa reports grant support from Sanofi and Quidel and honoraria from Genentech. No other potential conflicts of interest were disclosed.

Published

2022

23. Neonatal ECMO for Cardiopulmonary Failure Due to Carbamoyl Phosphate Synthetase I Deficiency.

Author

Phillips MR, Schwartz SP, Smith MM, Leung D, McLean SE, and Clement KC

Subjects

Carbamoyl-Phosphate Synthase I Deficiency Disease complications, Carbamoyl-Phosphate Synthase I Deficiency Disease therapy, Heart Failure therapy, Humans, Infant, Newborn, Liver Transplantation, Male, Respiratory Insufficiency therapy, Carbamoyl-Phosphate Synthase I Deficiency Disease diagnosis, Extracorporeal Membrane Oxygenation methods, Heart Failure etiology, Respiratory Insufficiency etiology

Published

2022

24. Extracorporeal Membrane Oxygenation for COVID-19-Associated Multisystem Inflammatory Syndrome in a 5-year-old.

Author

Schwartz SP, Walker TC, Kihlstrom M, Isani M, Smith MM, Smith RL, McLean SE, Clement KC, and Phillips MR

Subjects

Adenosine Monophosphate analogs & derivatives, Adenosine Monophosphate therapeutic use, Adrenergic alpha-Agonists therapeutic use, Alanine analogs & derivatives, Alanine therapeutic use, Anti-Inflammatory Agents therapeutic use, Antiviral Agents therapeutic use, COVID-19 diagnosis, COVID-19 therapy, Child, Preschool, Epinephrine therapeutic use, Female, Humans, Hypotension drug therapy, Immunization, Passive, Immunoglobulins, Intravenous therapeutic use, Interleukin 1 Receptor Antagonist Protein therapeutic use, Methylprednisolone therapeutic use, Norepinephrine therapeutic use, Shock, Cardiogenic diagnosis, Shock, Cardiogenic drug therapy, Systemic Inflammatory Response Syndrome diagnosis, COVID-19 Serotherapy, COVID-19 Drug Treatment, COVID-19 complications, Extracorporeal Membrane Oxygenation methods, Systemic Inflammatory Response Syndrome therapy

Abstract

Severe acute respiratory distress syndrome coronavirus 2 (SARS-CoV-2) is associated with multisystem inflammatory syndrome in children (MIS-C) that ranges from mild symptoms to cardiopulmonary collapse. A 5-year-old girl presented with shock and a rapid decline in left ventricular function requiring intubation. SARS-CoV-2 was diagnosed by viral Polymerase Chain Reaction (PCR), and she received remdesivir and COVID-19 convalescent plasma. Initial echocardiogram (ECHO) demonstrated low normal left ventricular function and mild left anterior descending coronary artery dilation. She remained hypotensive, despite high-dose epinephrine and norepinephrine infusions as well as stress-dose hydrocortisone. Admission SARS-CoV-2 IgG assay was positive, meeting the criteria for MIS-C. An ECHO 9 hours after admission demonstrated a severe decline in left ventricular function. Due to severe cardiogenic shock, she was cannulated for venoarterial extracorporeal support (ECMO). During her ECMO course, she was treated with remdesivir, intravenous methylprednisolone, intravenous immunoglobulin, and anakinra. She was decannulated on ECMO day 7, extubated the following day, and discharged home 2 weeks later without respiratory or cardiac support. The use of ECMO for cardiopulmonary support for pediatric patients with MIS-C is feasible and should be considered early as part of the treatment algorithm for patients with severe cardiopulmonary dysfunction.

Published

2022

25. Measurement of SARS-CoV-2 antigens in plasma of pediatric patients with acute COVID-19 or MIS-C using an ultrasensitive and quantitative immunoassay.

Author

Sigal GB, Novak T, Mathew A, Chou J, Zhang Y, Manjula N, Bathala P, Joe J, Padmanabhan N, Romero D, Allegri-Machado G, Joerger J, Loftis LL, Schwartz SP, Walker TC, Fitzgerald JC, Tarquinio KM, Zinter MS, Schuster JE, Halasa NB, Cullimore ML, Maddux AB, Staat MA, Irby K, Flori HR, Coates BM, Crandall H, Gertz SJ, Randolph AG, and Pollock NR

Abstract

Background: Detection of SARS-CoV-2 antigens in blood has high sensitivity in adults with acute COVID-19, but sensitivity in pediatric patients is unclear. Recent data suggest that persistent SARS-CoV-2 spike antigenemia may contribute to multisystem inflammatory syndrome in children (MIS-C). We quantified SARS-CoV-2 nucleocapsid (N) and spike (S) antigens in blood of pediatric patients with either acute COVID-19 or MIS-C using ultrasensitive immunoassays (Meso Scale Discovery)., Methods: Plasma was collected from inpatients (<21 years) enrolled across 15 hospitals in 15 US states. Acute COVID-19 patients (n=36) had a range of disease severity and positive nasopharyngeal SARS-CoV-2 RT-PCR within 24 hours of blood collection. Patients with MIS-C (n=53) met CDC criteria and tested positive for SARS-CoV-2 (RT-PCR or serology). Controls were patients pre-COVID-19 (n=67) or within 24h of negative RT-PCR (n=43)., Results: Specificities of N and S assays were 95-97% and 100%, respectively. In acute COVID-19 patients, N/S plasma assays had 89%/64% sensitivity, respectively; sensitivity in patients with concurrent nasopharyngeal swab cycle threshold (Ct) ≤ 35 were 93%/63%. Antigen concentrations ranged from 1.28-3,844 pg/mL (N) and 1.65-1,071 pg/mL (S) and correlated with disease severity. In MIS-C, antigens were detected in 3/53 (5.7%) samples (3 N-positive: 1.7, 1.9, 121.1 pg/mL; 1 S-positive: 2.3 pg/mL); the patient with highest N had positive nasopharyngeal RT-PCR (Ct 22.3) concurrent with blood draw., Conclusions: Ultrasensitive blood SARS-CoV-2 antigen measurement has high diagnostic yield in children with acute COVID-19. Antigens were undetectable in most MIS-C patients, suggesting that persistent antigenemia is not a common contributor to MIS-C pathogenesis., Key Points: In a U.S. pediatric cohort tested with ultrasensitive immunoassays, SARS-CoV-2 nucleocapsid antigens were detectable in most patients with acute COVID-19, and spike antigens were commonly detectable. Both antigens were undetectable in almost all MIS-C patients.

Published

2021

26. Effectiveness of Pfizer-BioNTech mRNA Vaccination Against COVID-19 Hospitalization Among Persons Aged 12-18 Years - United States, June-September 2021.

Author

Olson SM, Newhams MM, Halasa NB, Price AM, Boom JA, Sahni LC, Irby K, Walker TC, Schwartz SP, Pannaraj PS, Maddux AB, Bradford TT, Nofziger RA, Boutselis BJ, Cullimore ML, Mack EH, Schuster JE, Gertz SJ, Cvijanovich NZ, Kong M, Cameron MA, Staat MA, Levy ER, Chatani BM, Chiotos K, Zambrano LD, Campbell AP, Patel MM, and Randolph AG

Subjects

Adolescent, COVID-19 epidemiology, Child, Female, Humans, Male, United States epidemiology, Vaccines, Synthetic, mRNA Vaccines, COVID-19 prevention & control, COVID-19 Vaccines administration & dosage, Hospitalization statistics & numerical data

Abstract

Pfizer-BioNTech COVID-19 vaccine is authorized for use in children and adolescents aged 12-15 years and is licensed by the Food and Drug Administration (FDA) for persons aged ≥16 (1). A randomized placebo-controlled trial demonstrated an efficacy of 100% (95% confidence interval [CI] = 75.3%-100%) in preventing outpatient COVID-19 in persons aged 12-15 years (2); however, data among adolescents on vaccine effectiveness (VE) against COVID-19 in real-world settings are limited, especially among hospitalized patients. In early September 2021, U.S. pediatric COVID-19 hospitalizations reached the highest level during the pandemic (3,4). In a test-negative, case-control study at 19 pediatric hospitals in 16 states during June 1-September 30, 2021, the effectiveness of 2 doses of Pfizer-BioNTech vaccine against COVID-19 hospitalization was assessed among children and adolescents aged 12-18 years. Among 464 hospitalized persons aged 12-18 years (179 case-patients and 285 controls), the median age was 15 years, 72% had at least one underlying condition, including obesity, and 68% attended in-person school. Effectiveness of 2 doses of Pfizer-BioNTech vaccine against COVID-19 hospitalization was 93% (95% CI = 83%-97%), during the period when B.1.617.2 (Delta) was the predominant variant. This evaluation demonstrated that 2 doses of Pfizer-BioNTech vaccine are highly effective at preventing COVID-19 hospitalization among persons aged 12-18 years and reinforces the importance of vaccination to protect U.S. youths against severe COVID-19., Competing Interests: All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. Natasha B. Halasa reports grants from Sanofi and Quidel outside of the submitted work. Jennifer E. Schuster reports grants from Merck outside of the submitted work. Pia S. Pannaraj reports grants from AstraZeneca and Pfizer outside of the submitted work, and personal fees from Seqirus and Nestle outside of the submitted work. No other potential conflicts of interest were disclosed.

Published

2021

27. Data-driven clustering identifies features distinguishing multisystem inflammatory syndrome from acute COVID-19 in children and adolescents.

Author

Geva A, Patel MM, Newhams MM, Young CC, Son MBF, Kong M, Maddux AB, Hall MW, Riggs BJ, Singh AR, Giuliano JS, Hobbs CV, Loftis LL, McLaughlin GE, Schwartz SP, Schuster JE, Babbitt CJ, Halasa NB, Gertz SJ, Doymaz S, Hume JR, Bradford TT, Irby K, Carroll CL, McGuire JK, Tarquinio KM, Rowan CM, Mack EH, Cvijanovich NZ, Fitzgerald JC, Spinella PC, Staat MA, Clouser KN, Soma VL, Dapul H, Maamari M, Bowens C, Havlin KM, Mourani PM, Heidemann SM, Horwitz SM, Feldstein LR, Tenforde MW, Newburger JW, Mandl KD, and Randolph AG

Abstract

Background: Multisystem inflammatory syndrome in children (MIS-C) consensus criteria were designed for maximal sensitivity and therefore capture patients with acute COVID-19 pneumonia., Methods: We performed unsupervised clustering on data from 1,526 patients (684 labeled MIS-C by clinicians) <21 years old hospitalized with COVID-19-related illness admitted between 15 March 2020 and 31 December 2020. We compared prevalence of assigned MIS-C labels and clinical features among clusters, followed by recursive feature elimination to identify characteristics of potentially misclassified MIS-C-labeled patients., Findings: Of 94 clinical features tested, 46 were retained for clustering. Cluster 1 patients ( N  = 498; 92% labeled MIS-C) were mostly previously healthy (71%), with mean age 7·2 ± 0·4 years, predominant cardiovascular (77%) and/or mucocutaneous (82%) involvement, high inflammatory biomarkers, and mostly SARS-CoV-2 PCR negative (60%). Cluster 2 patients ( N  = 445; 27% labeled MIS-C) frequently had pre-existing conditions (79%, with 39% respiratory), were similarly 7·4 ± 2·1 years old, and commonly had chest radiograph infiltrates (79%) and positive PCR testing (90%). Cluster 3 patients ( N  = 583; 19% labeled MIS-C) were younger (2·8 ± 2·0 y), PCR positive (86%), with less inflammation. Radiographic findings of pulmonary infiltrates and positive SARS-CoV-2 PCR accurately distinguished cluster 2 MIS-C labeled patients from cluster 1 patients., Interpretation: Using a data driven, unsupervised approach, we identified features that cluster patients into a group with high likelihood of having MIS-C. Other features identified a cluster of patients more likely to have acute severe COVID-19 pulmonary disease, and patients in this cluster labeled by clinicians as MIS-C may be misclassified. These data driven phenotypes may help refine the diagnosis of MIS-C., Competing Interests: All authors report receiving funding from the Centers for Disease Control and Prevention for the current study. AG reports receiving grants from the NIH outside of the submitted work. ABM reports receiving grants from the Francis Family Foundation and from the NIH/NICHD (K23HD096018) outside of the submitted work. CVH reports receiving consulting fees from DYNAMED and BIOFIRE outside of the submitted work. JES reports receiving grants from Merck outside of the submitted work. NBH reports receiving grants from Sanofi, Quidel, the NIH, and the CDC; consulting fees from Moderna; and an educational grant from Genetech outside of the submitted work. CMR reports receiving grants from the NIH/NHLBI (K23HL150244) outside of the submitted work. NZC reports receiving grants or contracts from Boston Children's Hospital and Cincinnati Children's Hospital and Medical Center outside of the submitted work. JCF reports receiving grants from the NIH outside of the submitted work. HD reports payments from Delex Pharma International Inc. outside of the submitted work. PMM reports receiving grants from the NIH and serving as a member of data safety monitoring board for the NIH supported KIDS-DOT trial outside of the submitted work. AGR reports receiving royalties from UpToDate outside of the submitted work. All other authors have nothing to declare., (© 2021 The Authors.)

Published

2021

28. Multisystem Inflammatory Syndrome in Children - Initial Therapy and Outcomes.

Author

Son MBF, Murray N, Friedman K, Young CC, Newhams MM, Feldstein LR, Loftis LL, Tarquinio KM, Singh AR, Heidemann SM, Soma VL, Riggs BJ, Fitzgerald JC, Kong M, Doymaz S, Giuliano JS Jr, Keenaghan MA, Hume JR, Hobbs CV, Schuster JE, Clouser KN, Hall MW, Smith LS, Horwitz SM, Schwartz SP, Irby K, Bradford TT, Maddux AB, Babbitt CJ, Rowan CM, McLaughlin GE, Yager PH, Maamari M, Mack EH, Carroll CL, Montgomery VL, Halasa NB, Cvijanovich NZ, Coates BM, Rose CE, Newburger JW, Patel MM, and Randolph AG

Subjects

Adolescent, COVID-19 complications, COVID-19 immunology, COVID-19 mortality, Child, Child, Preschool, Cohort Studies, Combined Modality Therapy, Drug Therapy, Combination, Female, Hospitalization, Humans, Immunomodulation, Infant, Logistic Models, Male, Propensity Score, Public Health Surveillance, Shock etiology, Shock prevention & control, Systemic Inflammatory Response Syndrome complications, Systemic Inflammatory Response Syndrome immunology, Systemic Inflammatory Response Syndrome mortality, Treatment Outcome, Ventricular Dysfunction, Left etiology, Young Adult, Glucocorticoids therapeutic use, Immunoglobulins, Intravenous therapeutic use, Systemic Inflammatory Response Syndrome drug therapy, Ventricular Dysfunction, Left prevention & control, COVID-19 Drug Treatment

Abstract

Background: The assessment of real-world effectiveness of immunomodulatory medications for multisystem inflammatory syndrome in children (MIS-C) may guide therapy., Methods: We analyzed surveillance data on inpatients younger than 21 years of age who had MIS-C and were admitted to 1 of 58 U.S. hospitals between March 15 and October 31, 2020. The effectiveness of initial immunomodulatory therapy (day 0, indicating the first day any such therapy for MIS-C was given) with intravenous immune globulin (IVIG) plus glucocorticoids, as compared with IVIG alone, was evaluated with propensity-score matching and inverse probability weighting, with adjustment for baseline MIS-C severity and demographic characteristics. The primary outcome was cardiovascular dysfunction (a composite of left ventricular dysfunction or shock resulting in the use of vasopressors) on or after day 2. Secondary outcomes included the components of the primary outcome, the receipt of adjunctive treatment (glucocorticoids in patients not already receiving glucocorticoids on day 0, a biologic, or a second dose of IVIG) on or after day 1, and persistent or recurrent fever on or after day 2., Results: A total of 518 patients with MIS-C (median age, 8.7 years) received at least one immunomodulatory therapy; 75% had been previously healthy, and 9 died. In the propensity-score-matched analysis, initial treatment with IVIG plus glucocorticoids (103 patients) was associated with a lower risk of cardiovascular dysfunction on or after day 2 than IVIG alone (103 patients) (17% vs. 31%; risk ratio, 0.56; 95% confidence interval [CI], 0.34 to 0.94). The risks of the components of the composite outcome were also lower among those who received IVIG plus glucocorticoids: left ventricular dysfunction occurred in 8% and 17% of the patients, respectively (risk ratio, 0.46; 95% CI, 0.19 to 1.15), and shock resulting in vasopressor use in 13% and 24% (risk ratio, 0.54; 95% CI, 0.29 to 1.00). The use of adjunctive therapy was lower among patients who received IVIG plus glucocorticoids than among those who received IVIG alone (34% vs. 70%; risk ratio, 0.49; 95% CI, 0.36 to 0.65), but the risk of fever was unaffected (31% and 40%, respectively; risk ratio, 0.78; 95% CI, 0.53 to 1.13). The inverse-probability-weighted analysis confirmed the results of the propensity-score-matched analysis., Conclusions: Among children and adolescents with MIS-C, initial treatment with IVIG plus glucocorticoids was associated with a lower risk of new or persistent cardiovascular dysfunction than IVIG alone. (Funded by the Centers for Disease Control and Prevention.)., (Copyright © 2021 Massachusetts Medical Society.)

Published

2021

29. Characteristics and Outcomes of US Children and Adolescents With Multisystem Inflammatory Syndrome in Children (MIS-C) Compared With Severe Acute COVID-19.

Author

Feldstein LR, Tenforde MW, Friedman KG, Newhams M, Rose EB, Dapul H, Soma VL, Maddux AB, Mourani PM, Bowens C, Maamari M, Hall MW, Riggs BJ, Giuliano JS Jr, Singh AR, Li S, Kong M, Schuster JE, McLaughlin GE, Schwartz SP, Walker TC, Loftis LL, Hobbs CV, Halasa NB, Doymaz S, Babbitt CJ, Hume JR, Gertz SJ, Irby K, Clouser KN, Cvijanovich NZ, Bradford TT, Smith LS, Heidemann SM, Zackai SP, Wellnitz K, Nofziger RA, Horwitz SM, Carroll RW, Rowan CM, Tarquinio KM, Mack EH, Fitzgerald JC, Coates BM, Jackson AM, Young CC, Son MBF, Patel MM, Newburger JW, and Randolph AG

Subjects

Adolescent, Age Factors, Biomarkers analysis, Child, Child, Preschool, Diagnosis, Differential, Female, Humans, Intensive Care Units, Pediatric, Male, Patient Acuity, Regression Analysis, Stroke Volume, United States, Young Adult, COVID-19 complications, COVID-19 diagnosis, COVID-19 physiopathology, COVID-19 therapy, Systemic Inflammatory Response Syndrome complications, Systemic Inflammatory Response Syndrome diagnosis, Systemic Inflammatory Response Syndrome physiopathology, Systemic Inflammatory Response Syndrome therapy

Abstract

Importance: 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.

Published

2021

30. An Online Curriculum in the PICU-Do You Have Plans Tonight?

Author

Schwartz SP and Turner DA

Subjects

Child, Humans, Intensive Care Units, Pediatric, Rotation, Critical Care, Curriculum

Published

2020

31. CO-OP for Children with DCD: Goals Addressed and Strategies Used.

Author

Schwartz SP, Northrup SRK, Izadi-Najafabadi S, and Zwicker JG

Subjects

Child, Female, Humans, Knowledge, Leisure Activities, Male, Motor Skills, Orientation, Patient Care Planning, Retrospective Studies, Motor Skills Disorders rehabilitation, Occupational Therapy organization & administration

Abstract

Introduction.: Developmental coordination disorder (DCD) is a neurodevelopmental disorder that impacts motor coordination and interferes with participation in everyday activities. Cognitive Orientation to Occupational Performance (CO-OP) is a client-centered treatment approach that focuses on skill acquisition through cognitive strategy use., Objectives.: To determine which types of goals a sample of children with DCD choose most frequently and which domain-specific strategies were most commonly used to address these goals., Methods.: Retrospective chart review of 50 children (8-12 years) with DCD who completed CO-OP intervention was conducted to identify goal types and strategy use., Results.: Leisure was the most common goal type. Supplementing task knowledge, body position, and task modification were the most frequently used strategies., Conclusions.: Results confirm the types of goals that are commonly selected by children with DCD and highlight commonly used strategies used to meet these goals. Findings will help guide occupational therapists in selecting appropriate strategies to meet children's goals.

Published

2020

32. Convalescent Plasma Therapy in Four Critically Ill Pediatric Patients With Coronavirus Disease 2019: A Case Series.

Author

Schwartz SP, Thompson P, Smith M, Lercher DM, Rimland CA, Bartelt L, Park YA, Weiss S, Markmann AJ, Raut R, Premkumar L, Kuruc J, and Willis Z

Abstract

Coronavirus disease 2019 is a pandemic with no specific therapeutic agents or vaccination. Small published case series on critically ill adults suggest improvements in clinical status with minimal adverse events when patients receive coronavirus disease 2019 convalescent plasma, but data on critically ill pediatric patients are lacking. We report a series of four critically ill pediatric patients with acute respiratory failure who received coronavirus disease 2019 convalescent plasma as a treatment strategy for severe disease., Case Summary: Patients ranged in age from 5 to 16 years old. All patients received coronavirus disease 2019 convalescent plasma within the first 26 hours of hospitalization. Additional disease modifying agents were also used. All patients made a full recovery and were discharged home off of oxygen support. No adverse events occurred from the coronavirus disease 2019 convalescent plasma transfusions., Conclusion: Coronavirus disease 2019 convalescent plasma is a feasible therapy for critically ill pediatric patients infected with severe acute respiratory syndrome coronavirus 2. Well-designed clinical trials are necessary to determine overall safety and efficacy of coronavirus disease 2019 convalescent plasma and additional treatment modalities in pediatric patients., Competing Interests: Dr. Rimland receives training support from the UNC Medical Scientist Training Program and the National Institutes of Health MD/PhD Partnership Program. The remaining authors have disclosed that they do not have any potential conflicts of interest., (Copyright © 2020 The Authors. Published by Wolters Kluwer Health, Inc. on behalf of the Society of Critical Care Medicine.)

Published

2020

33. Orthotopic Heart Transplantation in a Patient With Gitelman Syndrome and Dilated Cardiomyopathy.

Author

Solt SA, Hoffman TM, Sharma MS, Westreich KD, Kihlstrom M, and Schwartz SP

Subjects

Cardiomyopathy, Dilated complications, Cardiomyopathy, Dilated diagnosis, Child, Echocardiography, Gitelman Syndrome complications, Gitelman Syndrome diagnosis, Humans, Male, Tomography, X-Ray Computed, Cardiomyopathy, Dilated surgery, Gitelman Syndrome surgery, Heart Transplantation methods

Abstract

Gitelman syndrome (GS) is a rare hereditary tubulopathy affecting the distal tubule leading to significant electrolyte disturbances. 1 Although generally a benign condition, rare associations with arrhythmias and sudden cardiac death have been reported. 1 A paucity of literature exists associating GS with cardiomyopathy. We present a child with dilated cardiomyopathy and GS who was successfully treated with orthotopic heart transplantation.

Published

2020

34. Work-life balance behaviours cluster in work settings and relate to burnout and safety culture: a cross-sectional survey analysis.

Author

Schwartz SP, Adair KC, Bae J, Rehder KJ, Shanafelt TD, Profit J, and Sexton JB

Subjects

Cross-Sectional Studies, Health Personnel psychology, Humans, Job Satisfaction, Leadership, Patient Care Team organization & administration, Professional Role, Psychometrics, Socioeconomic Factors, Burnout, Professional epidemiology, Group Processes, Organizational Culture, Safety Management organization & administration, Work-Life Balance, Workplace psychology

Abstract

Background: Healthcare is approaching a tipping point as burnout and dissatisfaction with work-life integration (WLI) in healthcare workers continue to increase. A scale evaluating common behaviours as actionable examples of WLI was introduced to measure work-life balance., Objectives: (1) Explore differences in WLI behaviours by role, specialty and other respondent demographics in a large healthcare system. (2) Evaluate the psychometric properties of the work-life climate scale, and the extent to which it acts like a climate, or group-level norm when used at the work setting level. (3) Explore associations between work-life climate and other healthcare climates including teamwork, safety and burnout., Methods: Cross-sectional survey study completed in 2016 of US healthcare workers within a large academic healthcare system., Results: 10 627 of 13 040 eligible healthcare workers across 440 work settings within seven entities of a large healthcare system (81% response rate) completed the routine safety culture survey. The overall work-life climate scale internal consistency was α=0.830. WLI varied significantly among healthcare worker role, length of time in specialty and work setting. Random effects analyses of variance for the work-life climate scale revealed significant between-work setting and within-work setting variance and intraclass correlations reflected clustering at the work setting level. T-tests of top versus bottom WLI quartile work settings revealed that positive work-life climate was associated with better teamwork and safety climates, as well as lower personal burnout and burnout climate (p<0.001)., Conclusion: Problems with WLI are common in healthcare workers and differ significantly based on position and time in specialty. Although typically thought of as an individual difference variable, WLI appears to operate as a climate, and is consistently associated with better safety culture norms., Competing Interests: Competing interests: SCORE is available at no cost for research and quality improvement purposes. The Duke Patient Safety Center has a research contract with Safe & Reliable Healthcare to conduct secondary analysis on Safety Culture data. Safe & Reliable Healthcare uses the work-life climate scale in their online platform. TDS is coinventor of the Physician Well-Being Index, Medical Student Well-Being Index, Nurse Well-Being Index and Well-Being Index. Mayo Clinic holds the copyright for this instrument and has licensed it for use outside of Mayo Clinic. TDS receives a portion of any royalties paid to Mayo Clinic. TDS has received honorarium for presenting grand rounds, keynote lectures and advising on the topic of physician well-being. JBS and JP have funding through the NIH through a WISER R01 grant (R01 HD084679-01) to study burnout in healthcare. KCA and JBS have received honorarium for talks in which they discuss WLI and burnout., (© Author(s) (or their employer(s)) 2019. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2019

35. Extracorporeal Membrane Oxygenation Survival-More Than Just Decannulation.

Author

Schwartz SP, Rehder KJ, and Turner DA

Subjects

Airway Extubation, Child, Device Removal, Humans, Retrospective Studies, Extracorporeal Membrane Oxygenation

Published

2018

36. Transporting Critically Ill Children-Are We All on the Same Page?

Author

Schwartz SP, Rehder KJ, and Turner DA

Subjects

Child, Critical Illness, Humans, Models, Psychological, Patient Handoff, Intensive Care Units, Pediatric

Published

2018

37. Bedside Tracheostomy on Pediatric ICU Subjects Supported by Extracorporeal Membrane Oxygenation.

Author

Schwartz SP, Bonadonna D, Hartwig MG, and Cheifetz IM

Subjects

Adolescent, Adult, Child, Feasibility Studies, Female, Hemostasis, Surgical methods, Humans, Intensive Care Units, Pediatric, Male, Point-of-Care Systems, Retrospective Studies, Treatment Outcome, Young Adult, Extracorporeal Membrane Oxygenation methods, Tracheostomy methods

Abstract

Background: Tracheostomy facilitates ambulatory extracorporeal membrane oxygenation (ECMO) as a bridge to recovery or lung transplantation in patients with respiratory failure, yet data on this procedure in this population are lacking. This report describes a series of pediatric ICU patients who had a bedside tracheostomy performed while being supported on ECMO and examines the potential impact of this procedure on active rehabilitation and sedation requirements., Methods: This retrospective case series reviews all patients in the pediatric ICU who received a tracheostomy while being supported on ECMO at a single tertiary care center for the past 3 y. This descriptive report reviews the surgical procedure, anticoagulation management, adjustments to sedation, and complications., Results: Nine subjects between January 2013 and December 2015 were identified for review. The subjects ranged in age from 7 y to 25 y. All tracheostomies were performed as bedside procedures in the pediatric ICU. All subjects but one were supported by venovenous ECMO. Surgical approaches included open tracheostomy (2 subjects, 22%), percutaneous tracheostomy (1 subject, 11%), and a hybrid approach (6 subjects, 67%). Anticoagulation was held for all subjects surrounding the procedure. Three subjects had superficial bleeding after the procedure, but only one required re-exploration of the surgical field. All subjects made substantial sedation weans within 72 h of tracheostomy. With these weans, subjects were better able to participate in rehabilitation. Five subjects (55.6%) ambulated on ECMO. The rate of survival to hospital discharge was 67%, and no deaths were related to the tracheostomy procedure., Conclusions: Bedside tracheostomy can feasibly be performed on pediatric patients being supported with ECMO as a way to improve mobility, promote ambulation, and decrease sedation. Timing and ideal surgical approach require further study to fully maximize benefits and minimize risks., Competing Interests: The authors have disclosed no conflicts of interest., (Copyright © 2017 by Daedalus Enterprises.)

Published

2017

38. The associations between work-life balance behaviours, teamwork climate and safety climate: cross-sectional survey introducing the work-life climate scale, psychometric properties, benchmarking data and future directions.

Author

Sexton JB, Schwartz SP, Chadwick WA, Rehder KJ, Bae J, Bokovoy J, Doram K, Sotile W, Adair KC, and Profit J

Subjects

Benchmarking, Cross-Sectional Studies, Female, Hospital Administration, Humans, Male, Patient Care Team, Psychometrics, Attitude of Health Personnel, Group Processes, Organizational Culture, Safety Management organization & administration, Work-Life Balance organization & administration

Abstract

Background: Improving the resiliency of healthcare workers is a national imperative, driven in part by healthcare workers having minimal exposure to the skills and culture to achieve work-life balance (WLB). Regardless of current policies, healthcare workers feel compelled to work more and take less time to recover from work. Satisfaction with WLB has been measured, as has work-life conflict, but how frequently healthcare workers engage in specific WLB behaviours is rarely assessed. Measurement of behaviours may have advantages over measurement of perceptions; behaviours more accurately reflect WLB and can be targeted by leaders for improvement., Objectives: 1. To describe a novel survey scale for evaluating work-life climate based on specific behavioural frequencies in healthcare workers.2. To evaluate the scale's psychometric properties and provide benchmarking data from a large healthcare system.3. To investigate associations between work-life climate, teamwork climate and safety climate., Methods: Cross-sectional survey study of US healthcare workers within a large healthcare system., Results: 7923 of 9199 eligible healthcare workers across 325 work settings within 16 hospitals completed the survey in 2009 (86% response rate). The overall work-life climate scale internal consistency was Cronbach α=0.790. t-Tests of top versus bottom quartile work settings revealed that positive work-life climate was associated with better teamwork climate, safety climate and increased participation in safety leadership WalkRounds with feedback (p<0.001). Univariate analysis of variance demonstrated differences that varied significantly in WLB between healthcare worker role, hospitals and work setting., Conclusions: The work-life climate scale exhibits strong psychometric properties, elicits results that vary widely by work setting, discriminates between positive and negative workplace norms, and aligns well with other culture constructs that have been found to correlate with clinical outcomes., Competing Interests: Competing interests: None declared., (Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/.)

Published

2017

39. Quality improvement in pediatrics: past, present, and future.

Author

Schwartz SP and Rehder KJ

Subjects

Catheter-Related Infections prevention & control, Child, Child Welfare, Cooperative Behavior, History, 20th Century, History, 21st Century, Humans, Medical Errors prevention & control, Patient Safety, Quality Assurance, Health Care, Reproducibility of Results, Pediatrics history, Quality Improvement

Abstract

Almost two decades ago, the landmark report "To Err is Human" compelled healthcare to address the large numbers of hospitalized patients experiencing preventable harm. Concurrently, it became clear that the rapidly rising cost of healthcare would be unsustainable in the long-term. As a result, quality improvement methodologies initially rooted in other high-reliability industries have become a primary focus of healthcare. Multiple pediatric studies demonstrate remarkable quality and safety improvements in several domains including handoffs, catheter-associated blood stream infections, and other serious safety events. While both quality improvement and research are data-driven processes, significant differences exist between the two. Research utilizes a hypothesis driven approach to obtain new knowledge while quality improvement often incorporates a cyclic approach to translate existing knowledge into clinical practice. Recent publications have provided guidelines and methods for effectively reporting quality and safety work and improvement implementations. This review examines not only how quality improvement in pediatrics has led to improved outcomes, but also looks to the future of quality improvement in healthcare with focus on education and collaboration to ensure best practice approaches to caring for children.

Published

2017

40. Mass smallpox vaccination and cardiac deaths, New York City, 1947.

Author

Thorpe LE, Mostashari F, Karpati AM, Schwartz SP, Manning SE, Marx MA, and Frieden TR

Subjects

Adult, Heart Diseases etiology, Heart Diseases mortality, History, 20th Century, Humans, Immunization Programs history, Middle Aged, New York City epidemiology, Smallpox prevention & control, Smallpox Vaccine administration & dosage, Smallpox Vaccine adverse effects, Death Certificates history, Heart Diseases history, Mass Vaccination history, Smallpox Vaccine history

Abstract

In April 1947, during a smallpox outbreak in New York City (NYC), more than 6 million people were vaccinated. To determine whether vaccination increased cardiac death, we reviewed NYC death certificates for comparable periods in 1946, 1947, and 1948 (N = 81,529) and calculated adjusted relative death rates for the postvaccination period. No increases in cardiac deaths were observed.

Published

2004

41. RNA-binding protein conserved in both microtubule- and microfilament-based RNA localization.

Author

Havin L, Git A, Elisha Z, Oberman F, Yaniv K, Schwartz SP, Standart N, and Yisraeli JK

Subjects

Amino Acid Sequence, Animals, Binding Sites genetics, Female, Glycoproteins genetics, Molecular Sequence Data, Protein Binding, RNA, Messenger genetics, RNA, Messenger metabolism, RNA-Binding Proteins genetics, Sequence Alignment, Transforming Growth Factor beta, Xenopus, Xenopus Proteins, Actin Cytoskeleton metabolism, Glycoproteins metabolism, Microtubules metabolism, Oocytes metabolism, Oocytes ultrastructure, RNA-Binding Proteins metabolism

Abstract

Vg1 mRNA translocation to the vegetal cortex of Xenopus oocytes requires intact microtubules, and a 3' UTR cis-acting element (termed VLE), which also mediates sequence-specific binding of several proteins. One protein, the 69-kD Vg1 RBP, associates Vg1 RNA to microtubules in vitro. Here we show that Vg1 RBP-binding sites correlate with vegetal localization. Purification and cloning of Vg1 RBP revealed five RNA-binding motifs: four KH and one RRM domains. Surprisingly, Vg1 RBP is highly homologous to the zipcode binding protein implicated in the microfilament-mediated localization of beta actin mRNA in fibroblasts. These data support Vg1 RBP's direct role in vegetal localization and suggest the existence of a general, evolutionarily conserved mechanism for mRNA targeting.

Published

1998

42. Frameshift and splice-junction mutations in the sterol 27-hydroxylase gene cause cerebrotendinous xanthomatosis in Jews or Moroccan origin.

Author

Leitersdorf E, Reshef A, Meiner V, Levitzki R, Schwartz SP, Dann EJ, Berkman N, Cali JJ, Klapholz L, and Berginer VM

Subjects

Adult, Amino Acid Sequence, Base Sequence, Cholestanetriol 26-Monooxygenase, Chromosome Mapping, Exons genetics, Female, Gene Library, Genome, Human, Heterozygote, Humans, Introns genetics, Israel, Molecular Sequence Data, Morocco ethnology, Polymerase Chain Reaction, Sequence Analysis, DNA, Xanthomatosis diagnosis, Xanthomatosis physiopathology, Cytochrome P-450 Enzyme System genetics, Frameshift Mutation genetics, Genes, Recessive genetics, Jews genetics, RNA Splicing genetics, Steroid Hydroxylases genetics, Xanthomatosis genetics

Abstract

The sterol 27-hydroxylase (EC 1.14.13.15) catalyzes steps in the oxidation of sterol intermediates that form bile acids. Mutations in this gene give rise to the autosomal recessive disease cerebrotendinous xanthomatosis (CTX). CTX is characterized by tendon xanthomas, cataracts, a multitude of neurological manifestations, and premature atherosclerosis. A relatively high prevalence of the disease has been noted in Jews originating from Morocco. The major objectives of the present investigation were to determine the gene structure and characterize the common mutant alleles that cause CTX in Moroccan Jews. The gene contains nine exons and eight introns and encompasses at least 18.6 kb of DNA. The putative promoter region is rich in guanidine and cytosine residues and contains potential binding sites for the transcription factor Sp1 and the liver transcription factor, LF-B1. Blotting analysis revealed that the mutant alleles do not produce any detectable sterol 27-hydroxylase mRNA. No major gene rearrangements were found and single-strand conformational polymorphism followed by sequence analysis identified two underlying mutations: deletion of thymidine in exon 4 and a guanosine to adenosine substitution at the 3' splice acceptor site of intron 4 of the gene. The molecular characterization of CTX in Jews of Moroccan origin provides a definitive diagnosis of this treatable disease.

Published

1993

43. A 69-kDa RNA-binding protein from Xenopus oocytes recognizes a common motif in two vegetally localized maternal mRNAs.

Author

Schwartz SP, Aisenthal L, Elisha Z, Oberman F, and Yisraeli JK

Subjects

Animals, Binding, Competitive, Cell Compartmentation, Gene Expression Regulation, Oocytes physiology, Restriction Mapping, Oocytes ultrastructure, RNA, Messenger metabolism, RNA-Binding Proteins metabolism, Xenopus laevis metabolism

Abstract

Vg1 mRNA, a maternal message encoding a member of the transforming growth factor beta superfamily, undergoes localization to the vegetal cortex of Xenopus laevis oocytes during a narrow period of oogenesis. A 340-nucleotide sequence has been identified in Vg1 RNA that directs its vegetal localization [Mowry, K. L. & Melton, D. A. (1992) Science 255, 991-994]. To understand how cis- and trans-acting factors are involved in Vg1 mRNA localization, we have looked for specific interactions in vitro between oocyte proteins and Vg1 mRNA. S100 extracts of late-stage oocytes contain a protein-binding activity that protects specific regions of labeled Vg1 mRNA from degradation by RNase T1. The use of different regions of Vg1 RNA in competition reactions reveals two binding sites, both in the first half of the 3' untranslated region of Vg1 message. UV crosslinking predominantly labels a 69-kDa protein; saturation analysis and competitor studies indicate that this protein binds with a high affinity to the down-stream site, which corresponds to the 340-nucleotide vegetal localization sequence. Binding to this region is inhibited by another vegetally localized message, transforming growth factor beta 5 but is not inhibited by an animally localized RNA, An2. These data indicate that vegetally localized mRNAs share a binding motif that helps them achieve their intracellular distribution through specific RNA-protein interactions.

Published

1992

44. Hypercholesterolemia in five Israeli Christian-Arab kindreds is caused by the "Lebanese" allele at the low density lipoprotein receptor gene locus and by an additional independent major factor.

Author

Oppenheim A, Friedlander Y, Dann EJ, Berkman N, Schwartz SP, and Leitersdorf E

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Alleles, Base Sequence, Child, Child, Preschool, Christianity, DNA, Female, Genetic Carrier Screening, Genotype, Humans, Hypercholesterolemia ethnology, Infant, Islam, Israel, Lebanon ethnology, Male, Middle Aged, Models, Genetic, Molecular Sequence Data, Pedigree, Polymerase Chain Reaction, Gene Frequency, Hypercholesterolemia genetics, Receptors, LDL genetics

Abstract

Segregation analyses were performed for plasma low density lipoprotein cholesterol (LDL-C), triglycerides (TG) and high density lipoprotein cholesterol (HDL-C) in five Christian Arab kindreds identified through probands with familial hypercholesterolemia. In this subset of the Christian Arab community, the results were consistent with major gene determination of LDL-C with allele frequency (q) of 0.042 (95% confidence interval 0.008-0.079) in addition to polygenic transmission (h2 = 0.34). The "Lebanese" allele was identified directly by polymerase chain reaction and HinfI restriction analysis. Analysis of this mutation permits direct diagnosis of familial hypercholesterolemia in most affected individuals although our results indicated the possible existence of an additional independent factor leading to elevated LDL-C levels. The segregation results for TG indicated the presence of a major effect, although the existence of a major gene could not be demonstrated. There was also no evidence of a major locus effect on HDL-C levels.

Published

1991

45. Expression of lipoprotein lipase mRNA in rat heart is localized mainly to mesenchymal cells as studied by in situ hybridization.

Author

Stein O, Stein Y, Schwartz SP, Reshef A, Chajek-Shaul T, Ben-Naim M, Friedman G, and Leitersdorf E

Subjects

Adenylyl Cyclase Inhibitors, Animals, Autoradiography, Bucladesine pharmacology, Cells, Cultured, Cholera Toxin administration & dosage, Electrophoresis, Agar Gel, Fasting, HEPES pharmacology, Heart drug effects, Lipoprotein Lipase genetics, Macrophages enzymology, Male, Nucleic Acid Hybridization, Peritoneal Cavity cytology, RNA Probes, Rats, Lipoprotein Lipase metabolism, Myocardium enzymology, RNA, Messenger metabolism

Abstract

The expression of lipoprotein lipase mRNA (LPL mRNA) was studied in rat hearts by use of a sulfur-35-labeled antisense mRNA probe. Rats were studied under three conditions: fed, fasted, and injected with cholera toxin (an irreversible agonist of adenylate cyclase) and then fasted. The highest LPL activity was found in the hearts of cholera toxin-injected, fasted rats. After injection of cholera toxin, LPL mRNA levels were 3.5-fold higher than those from fed rats. Using in situ hybridization, we studied the site of expression of LPL mRNA under the same three experimental conditions. In sections of hearts from cholera toxin-injected, fasted rats, concentrations of autoradiographic grains, representing the site of LPL mRNA, were seen over interstitial elements, which comprise capillary and perivascular cells. A more diffuse and sparse reaction was seen over cardiac myocytes and was not always distinguishable from background. A similar but much less definitive localization was seen in sections of hearts from fasted rats. The present results indicate that in the rat heart, the main site of LPL synthesis and processing, especially after stimulation with an irreversible agonist of adenylate cyclase, is localized to interstitial elements rather than to adult cardiac myocytes.

Published

1991

46. Communities and toxic wastes: further evidence.

Author

Hughes RG and Schwartz SP

Subjects

Mass Media, Tennessee, Community Participation, Industrial Waste, Public Health Administration

Published

1983

47. Neurons of origin of the perforant path.

Author

Schwartz SP and Coleman PD

Subjects

Animals, Dendrites ultrastructure, Hippocampus cytology, Horseradish Peroxidase, Neural Pathways physiology, Neurons classification, Rats, Hippocampus physiology

Published

1981

48. Environmental threats, communities, and hysteria.

Author

Schwartz SP, White PE, and Hughes RG

Subjects

Humans, Mass Behavior, Risk, United States, Environmental Pollution adverse effects, Hysteria etiology, Public Health

Published

1985

49. Production of beta-lactamase by non-streptomyces Actinomycetales.

Author

Schwartz JL and Schwartz SP

Subjects

Fermentation, Micromonospora enzymology, Nocardia enzymology, Actinomycetales enzymology, beta-Lactamases biosynthesis

Abstract

Supernatants and whole cells from fermentation broths of Micromonospora, Nocardia, Oerskovia, and other genera of the Actinomycetales were examined for the presence of beta-lactamase activity by using the chromogenic cephalosporin 87/312. Nearly 60% of the 250 isolates examined produced detectable levels of beta-lactamase. All enzyme preparations were active over a range of pH values from 6.5 to 8.2, with maximum activity occurring between 7.0 and 7.8. The preparations varied in their stability at 60 degrees C. An examination of selected enzyme preparations revealed a similarity between substrate specificities of the non-Streptomyces Actinomycetales and gram-negative-bacterial beta-lactamases.

Published

1979

50. ADAMS-STOKES SYNDROME DURING ATRIAL FIBRILLATION WITH A-V BLOCK: OBSERVATIONS ON TOXIC REACTIONS TO DIGITALIS.

Author

SCHWARTZ LS and SCHWARTZ SP

Subjects

Humans, Adams-Stokes Syndrome, Atrial Fibrillation, Digitalis, Digitalis Glycosides, Digitoxin, Drug Therapy, Electrocardiography, Heart Block, Isoproterenol, Tachycardia, Tachycardia, Paroxysmal, Toxicology, Ventricular Fibrillation

Published

1964