Your search keyword '"Schlaudecker E"' showing total 16 results

1. Safety and immunogenicity of simultaneous versus sequential tetanus, diphtheria, acellular pertussis vaccine and inactivated influenza vaccine in pregnant women

Author

Swamy, G., primary, Schlaudecker, E., additional, Schiffer, J., additional, and Broder, K., additional

Published

2019

2. Neonatal infections: Case definition and guidelines for data collection, analysis, and presentation of immunisation safety data.

Author

Jones C., Esteves-Jaramillo A., Guinazu J.R., Kampmann B., Heath P.T., Tran D., Top K.A., Tagbo B.N., Sukumaran L., Subelj M., Spiegel H., Schlaudecker E., Sanicas M., Oleske J., Munoz F.M., Padula M., Velasco Munoz C., de Menezes Martins R., Mangili A., Macdonald N., Kochhar S., King J., Vergnano S., Buttery J., Cailes B., Chandrasekaran R., Chiappini E., Clark E., Cutland C., de Andrade S.D., Jones C., Esteves-Jaramillo A., Guinazu J.R., Kampmann B., Heath P.T., Tran D., Top K.A., Tagbo B.N., Sukumaran L., Subelj M., Spiegel H., Schlaudecker E., Sanicas M., Oleske J., Munoz F.M., Padula M., Velasco Munoz C., de Menezes Martins R., Mangili A., Macdonald N., Kochhar S., King J., Vergnano S., Buttery J., Cailes B., Chandrasekaran R., Chiappini E., Clark E., Cutland C., and de Andrade S.D.

Abstract

Maternal vaccination is an important area of research and requires appropriate and internationally comparable definitions and safety standards. The GAIA group, part of the Brighton Collaboration was created with the mandate of proposing standardised definitions applicable to maternal vaccine research. This study proposes international definitions for neonatal infections. The neonatal infections GAIA working group performed a literature review using Medline, EMBASE and the Cochrane collaboration and collected definitions in use in neonatal and public health networks. The common criteria derived from the extensive search formed the basis for a consensus process that resulted in three separate definitions for neonatal blood stream infections (BSI), meningitis and lower respiratory tract infections (LRTI). For each definition three levels of evidence are proposed to ensure the applicability of the definitions to different settings. Recommendations about data collection, analysis and presentation are presented and harmonized with the Brighton Collaboration and GAIA format and other existing international standards for study reporting.Copyright © 2016

Published

2016

3. Neonatal infections: Case definition and guidelines for data collection, analysis, and presentation of immunisation safety data

Author

Vergnano, S, Buttery, J, Cailes, B, Chandrasekaran, R, Chiappini, E, Clark, E, Cutland, C, de Andrade, SD, Esteves-Jaramillo, A, Guinazu, JR, Jones, C, Kampmann, B, King, J, Kochhar, S, Macdonald, N, Mangili, A, Martins, RDM, Velasco Munoz, C, Padula, M, Munoz, FM, Oleske, J, Sanicas, M, Schlaudecker, E, Spiegel, H, Subelj, M, Sukumaran, L, Tagbo, BN, Top, KA, Tran, D, Heath, PT, Vergnano, S, Buttery, J, Cailes, B, Chandrasekaran, R, Chiappini, E, Clark, E, Cutland, C, de Andrade, SD, Esteves-Jaramillo, A, Guinazu, JR, Jones, C, Kampmann, B, King, J, Kochhar, S, Macdonald, N, Mangili, A, Martins, RDM, Velasco Munoz, C, Padula, M, Munoz, FM, Oleske, J, Sanicas, M, Schlaudecker, E, Spiegel, H, Subelj, M, Sukumaran, L, Tagbo, BN, Top, KA, Tran, D, and Heath, PT

Abstract

Maternal vaccination is an important area of research and requires appropriate and internationally comparable definitions and safety standards. The GAIA group, part of the Brighton Collaboration was created with the mandate of proposing standardised definitions applicable to maternal vaccine research. This study proposes international definitions for neonatal infections. The neonatal infections GAIA working group performed a literature review using Medline, EMBASE and the Cochrane collaboration and collected definitions in use in neonatal and public health networks. The common criteria derived from the extensive search formed the basis for a consensus process that resulted in three separate definitions for neonatal blood stream infections (BSI), meningitis and lower respiratory tract infections (LRTI). For each definition three levels of evidence are proposed to ensure the applicability of the definitions to different settings. Recommendations about data collection, analysis and presentation are presented and harmonized with the Brighton Collaboration and GAIA format and other existing international standards for study reporting.

Published

2016

4. Update From the Advisory Committee on Immunization Practices

Author

Schlaudecker, E. P., primary, Sawyer, M. H., additional, and Kimberlin, D. W., additional

Published

2013

5. Helping Mothers Prevent Influenza Illness in Their Infants

Author

Schlaudecker, E. P., primary and Steinhoff, M. C., additional

Published

2010

6. Childhood immunization rates in rural Intibucá, Honduras: an analysis of a local database tool and community health center records for assessing and improving vaccine coverage

Author

He Yuan, Zarychta Alan, Ranz Joseph B, Carroll Mary, Singleton Lori M, Wilson Paria M, and Schlaudecker Elizabeth P

Subjects

Vaccines, Childhood immunization, Honduras, Database, Community health workers, Public health, Public aspects of medicine, RA1-1270

Abstract

Abstract Background Vaccines are highly effective at preventing infectious diseases in children, and prevention is especially important in resource-limited countries where treatment is difficult to access. In Honduras, the World Health Organization (WHO) reports very high immunization rates in children. To determine whether or not these estimates accurately depict the immunization coverage in non-urban regions of the country, we compared the WHO data to immunization rates obtained from a local database tool and community health center records in rural Intibucá, Honduras. Methods We used data from two sources to comprehensively evaluate immunization rates in the area: 1) census data from a local database and 2) immunization data collected at health centers. We compared these rates using logistic regression, and we compared them to publicly available WHO-reported estimates using confidence interval inclusion. Results We found that mean immunization rates for each vaccine were high (range 84.4 to 98.8 percent), but rates recorded at the health centers were significantly higher than those reported from the census data (p≤0.001). Combining the results from both databases, the mean rates of four out of five vaccines were less than WHO-reported rates (p p=0.03). The rates by individual vaccine were similar across townships (p >0.05), except for diphtheria/tetanus/pertussis vaccine (p=0.02) and oral polio vaccine (p Conclusions Immunization rates in Honduras were high across data sources, though most of the rates recorded in rural Honduras were less than WHO-reported rates. Despite geographical difficulties and barriers to access, the local database and Honduran community health workers have developed a thorough system for ensuring that children receive their immunizations on time. The successful integration of community health workers and a database within the Honduran decentralized health system may serve as a model for other immunization programs in resource-limited countries where health care is less accessible.

Published

2012

7. Rotavirus Vaccine Effectiveness Against Severe Acute Gastroenteritis: 2009-2022.

Author

Diallo AO, Wikswo ME, Sulemana I, Sahni LC, Boom JA, Ramani S, Selvarangan R, Moffatt ME, Harrison CJ, Halasa N, Chappell J, Stewart L, Staat MA, Schlaudecker E, Quigley C, Klein EJ, Englund JA, Zerr DM, Weinberg GA, Szilagyi PG, Albertin C, Johnston SH, Williams JV, Michaels MG, Hickey RW, Curns AT, Honeywood M, Mijatovic-Rustempasic S, Esona MD, Bowen MD, Parashar UD, Gautam R, Mirza SA, and Tate JE

Subjects

Humans, Infant, Child, Preschool, Male, Female, Case-Control Studies, Acute Disease, United States epidemiology, Severity of Illness Index, Rotavirus immunology, Hospitalization statistics & numerical data, Rotavirus Vaccines immunology, Rotavirus Vaccines therapeutic use, Rotavirus Vaccines administration & dosage, Gastroenteritis prevention & control, Gastroenteritis virology, Gastroenteritis epidemiology, Rotavirus Infections prevention & control, Rotavirus Infections epidemiology, Vaccine Efficacy

Abstract

Background: Rotavirus was the leading cause of acute gastroenteritis among US children until vaccine introduction in 2006, after which, substantial declines in severe rotavirus disease occurred. We evaluated rotavirus vaccine effectiveness (VE) over 13 years (2009-2022)., Methods: We analyzed data from the New Vaccine Surveillance Network using a test-negative case-control design to estimate rotavirus VE against laboratory-confirmed rotavirus infections among children seeking care for acute gastroenteritis (≥3 diarrhea or ≥1 vomiting episodes within 24 hours) in the emergency department (ED) or hospital. Case-patients and control-patients were children whose stool specimens tested rotavirus positive or negative, respectively, by enzyme immunoassay or polymerase chain reaction assays. VE was calculated as (1-adjusted odds ratio)×100%. Adjusted odds ratios were calculated by multivariable unconditional logistic regression., Results: Among 16 188 enrolled children age 8 to 59 months, 1720 (11%) tested positive for rotavirus. Case-patients were less often vaccinated against rotavirus than control-patients (62% versus 88%). VE for receiving ≥1 dose against rotavirus-associated ED visits or hospitalization was 78% (95% confidence interval [CI] 75%-80%). Stratifying by a modified Vesikari Severity Score, VE was 59% (95% CI 49%-67%), 80% (95% CI 77%-83%), and 94% (95% CI 90%-97%) against mild, moderately severe, and very severe disease, respectively. Rotavirus vaccines conferred protection against common circulating genotypes (G1P[8], G2P[4], G3P[8], G9P[8], and G12[P8]). VE was higher in children <3 years (73% to 88%); protection decreased as age increased., Conclusions: Rotavirus vaccines remain highly effective in preventing ED visits and hospitalizations in US children., (Copyright © 2024 by the American Academy of Pediatrics.)

Published

2024

8. Respiratory Syncytial Virus-Associated Hospitalizations Among Children <5 Years Old: 2016 to 2020.

Author

Curns AT, Rha B, Lively JY, Sahni LC, Englund JA, Weinberg GA, Halasa NB, Staat MA, Selvarangan R, Michaels M, Moline H, Zhou Y, Perez A, Rohlfs C, Hickey R, Lacombe K, McHenry R, Whitaker B, Schuster J, Pulido CG, Strelitz B, Quigley C, Dnp GW, Avadhanula V, Harrison CJ, Stewart LS, Schlaudecker E, Szilagyi PG, Klein EJ, Boom J, Williams JV, Langley G, Gerber SI, Hall AJ, and McMorrow ML

Subjects

Child, Infant, Humans, Infant, Newborn, Child, Preschool, Prospective Studies, Hospitalization, Hospitals, Pediatric, Respiratory Syncytial Viruses, Respiratory Syncytial Virus Infections epidemiology, Respiratory Syncytial Virus Infections therapy

Abstract

Background: Respiratory syncytial virus (RSV) is the leading cause of hospitalization in US infants. Accurate estimates of severe RSV disease inform policy decisions for RSV prevention., Methods: We conducted prospective surveillance for children <5 years old with acute respiratory illness from 2016 to 2020 at 7 pediatric hospitals. We interviewed parents, reviewed medical records, and tested midturbinate nasal ± throat swabs by reverse transcription polymerase chain reaction for RSV and other respiratory viruses. We describe characteristics of children hospitalized with RSV, risk factors for ICU admission, and estimate RSV-associated hospitalization rates., Results: Among 13 524 acute respiratory illness inpatients <5 years old, 4243 (31.4%) were RSV-positive; 2751 (64.8%) of RSV-positive children had no underlying condition or history of prematurity. The average annual RSV-associated hospitalization rate was 4.0 (95% confidence interval [CI]: 3.8-4.1) per 1000 children <5 years, was highest among children 0 to 2 months old (23.8 [95% CI: 22.5-25.2] per 1000) and decreased with increasing age. Higher RSV-associated hospitalization rates were found in premature versus term children (rate ratio = 1.95 [95% CI: 1.76-2.11]). Risk factors for ICU admission among RSV-positive inpatients included: age 0 to 2 and 3 to 5 months (adjusted odds ratio [aOR] = 1.97 [95% CI: 1.54-2.52] and aOR = 1.56 [95% CI: 1.18-2.06], respectively, compared with 24-59 months), prematurity (aOR = 1.32 [95% CI: 1.08-1.60]) and comorbid conditions (aOR = 1.35 [95% CI: 1.10-1.66])., Conclusions: Younger infants and premature children experienced the highest rates of RSV-associated hospitalization and had increased risk of ICU admission. RSV prevention products are needed to reduce RSV-associated morbidity in young infants., (Copyright © 2024 by the American Academy of Pediatrics.)

Published

2024

9. The 2019-2020 Dengue Fever Epidemic: Genomic Markers Indicating Severity in Dominican Republic Children.

Author

Simpson BN, Mejía Sang ME, Collado Puello Y, Diaz Brockmans EJ, Díaz Soto MF, Rivera Defilló SM, Taveras Cruz KM, Santiago Pérez JO, Husami A, Day ME, Pilipenko V, Mena R, Mota C, Hostetter MK, Muglia LJ, Schlaudecker E, Gonzalez Del Rey J, Martin LJ, and Prada CE

Subjects

Humans, Child, Dominican Republic epidemiology, Cohort Studies, Genomics, Dengue diagnosis, Dengue epidemiology, Severe Dengue

Abstract

We performed an observational cohort study to assess associations between genetic factors of dengue fever (DF) severity in children in the Dominican Republic. A total of 488 participants had serologically confirmed DF. We replicated the association between the IFIH1 gene (rs1990760) and severe DF (n = 80/488, p = 0.006) and identified novel associations needing further investigation., (© 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

10. Multisystem Inflammatory Syndrome in Adults After Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) Infection and Coronavirus Disease 2019 (COVID-19) Vaccination.

Author

Belay ED, Godfred Cato S, Rao AK, Abrams J, Wilson WW, Lim S, Newton-Cheh C, Melgar M, DeCuir J, Webb B, Marquez P, Su JR, Meng L, Grome HN, Schlaudecker E, Talaat K, Edwards K, Barnett E, Campbell AP, Broder KR, and Bamrah Morris S

Subjects

Adult, Female, Humans, Male, SARS-CoV-2, Systemic Inflammatory Response Syndrome epidemiology, Systemic Inflammatory Response Syndrome etiology, Vaccination adverse effects, COVID-19 prevention & control, COVID-19 Vaccines adverse effects, Connective Tissue Diseases

Abstract

Background: Multisystem inflammatory syndrome in adults (MIS-A) was reported in association with the coronavirus disease 2019 (COVID-19) pandemic. MIS-A was included in the list of adverse events to be monitored as part of the emergency use authorizations issued for COVID-19 vaccines., Methods: Reports of MIS-A patients received by the Centers for Disease Control and Prevention (CDC) after COVID-19 vaccines became available were assessed. Data collected on the patients included clinical and demographic characteristics and their vaccine status. The Vaccine Adverse Events Reporting System (VAERS) was also reviewed for possible cases of MIS-A., Results: From 14 December 2020 to 30 April 2021, 20 patients who met the case definition for MIS-A were reported to CDC. Their median age was 35 years (range, 21-66 years), and 13 (65%) were male. Overall, 16 (80%) patients had a preceding COVID-19-like illness a median of 26 days (range 11-78 days) before MIS-A onset. All 20 patients had laboratory evidence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection. Seven MIS-A patients (35%) received COVID-19 vaccine a median of 10 days (range, 6-45 days) before MIS-A onset; 3 patients received a second dose of COVID-19 vaccine 4, 17, and 22 days before MIS-A onset. Patients with MIS-A predominantly had gastrointestinal and cardiac manifestations and hypotension or shock., Conclusions: Although 7 patients were reported to have received COVID-19 vaccine, all had evidence of prior SARS-CoV-2 infection. Given the widespread use of COVID-19 vaccines, the lack of reporting of MIS-A associated with vaccination alone, without evidence of underlying SARS-CoV-2 infection, is reassuring., (Published by Oxford University Press for the Infectious Diseases Society of America 2021. This work is written by (a) US Government employee(s) and is in the public domain in the US.)

Published

2022

11. Myocarditis Cases Reported After mRNA-Based COVID-19 Vaccination in the US From December 2020 to August 2021.

Author

Oster ME, Shay DK, Su JR, Gee J, Creech CB, Broder KR, Edwards K, Soslow JH, Dendy JM, Schlaudecker E, Lang SM, Barnett ED, Ruberg FL, Smith MJ, Campbell MJ, Lopes RD, Sperling LS, Baumblatt JA, Thompson DL, Marquez PL, Strid P, Woo J, Pugsley R, Reagan-Steiner S, DeStefano F, and Shimabukuro TT

Subjects

Adolescent, Adult, Age Distribution, COVID-19 Vaccines adverse effects, Female, Humans, Immunization, Secondary adverse effects, Male, Myocarditis epidemiology, Risk Factors, Sex Distribution, United States epidemiology, Young Adult, 2019-nCoV Vaccine mRNA-1273 adverse effects, BNT162 Vaccine adverse effects, Myocarditis etiology

Abstract

Importance: Vaccination against COVID-19 provides clear public health benefits, but vaccination also carries potential risks. The risks and outcomes of myocarditis after COVID-19 vaccination are unclear., Objective: To describe reports of myocarditis and the reporting rates after mRNA-based COVID-19 vaccination in the US., Design, Setting, and Participants: Descriptive study of reports of myocarditis to the Vaccine Adverse Event Reporting System (VAERS) that occurred after mRNA-based COVID-19 vaccine administration between December 2020 and August 2021 in 192 405 448 individuals older than 12 years of age in the US; data were processed by VAERS as of September 30, 2021., Exposures: Vaccination with BNT162b2 (Pfizer-BioNTech) or mRNA-1273 (Moderna)., Main Outcomes and Measures: Reports of myocarditis to VAERS were adjudicated and summarized for all age groups. Crude reporting rates were calculated across age and sex strata. Expected rates of myocarditis by age and sex were calculated using 2017-2019 claims data. For persons younger than 30 years of age, medical record reviews and clinician interviews were conducted to describe clinical presentation, diagnostic test results, treatment, and early outcomes., Results: Among 192 405 448 persons receiving a total of 354 100 845 mRNA-based COVID-19 vaccines during the study period, there were 1991 reports of myocarditis to VAERS and 1626 of these reports met the case definition of myocarditis. Of those with myocarditis, the median age was 21 years (IQR, 16-31 years) and the median time to symptom onset was 2 days (IQR, 1-3 days). Males comprised 82% of the myocarditis cases for whom sex was reported. The crude reporting rates for cases of myocarditis within 7 days after COVID-19 vaccination exceeded the expected rates of myocarditis across multiple age and sex strata. The rates of myocarditis were highest after the second vaccination dose in adolescent males aged 12 to 15 years (70.7 per million doses of the BNT162b2 vaccine), in adolescent males aged 16 to 17 years (105.9 per million doses of the BNT162b2 vaccine), and in young men aged 18 to 24 years (52.4 and 56.3 per million doses of the BNT162b2 vaccine and the mRNA-1273 vaccine, respectively). There were 826 cases of myocarditis among those younger than 30 years of age who had detailed clinical information available; of these cases, 792 of 809 (98%) had elevated troponin levels, 569 of 794 (72%) had abnormal electrocardiogram results, and 223 of 312 (72%) had abnormal cardiac magnetic resonance imaging results. Approximately 96% of persons (784/813) were hospitalized and 87% (577/661) of these had resolution of presenting symptoms by hospital discharge. The most common treatment was nonsteroidal anti-inflammatory drugs (589/676; 87%)., Conclusions and Relevance: Based on passive surveillance reporting in the US, the risk of myocarditis after receiving mRNA-based COVID-19 vaccines was increased across multiple age and sex strata and was highest after the second vaccination dose in adolescent males and young men. This risk should be considered in the context of the benefits of COVID-19 vaccination.

Published

2022

12. Enterovirus D68-Associated Acute Respiratory Illness ─ New Vaccine Surveillance Network, United States, July-November 2018-2020.

Author

Shah MM, Perez A, Lively JY, Avadhanula V, Boom JA, Chappell J, Englund JA, Fregoe W, Halasa NB, Harrison CJ, Hickey RW, Klein EJ, McNeal MM, Michaels MG, Moffatt ME, Otten C, Sahni LC, Schlaudecker E, Schuster JE, Selvarangan R, Staat MA, Stewart LS, Weinberg GA, Williams JV, Ng TFF, Routh JA, Gerber SI, McMorrow ML, Rha B, and Midgley CM

Subjects

Adolescent, Child, Child, Preschool, Enterovirus D, Human genetics, Enterovirus Infections virology, Female, Humans, Infant, Male, United States epidemiology, Disease Outbreaks, Enterovirus D, Human isolation & purification, Enterovirus Infections epidemiology, Population Surveillance methods, Respiratory Tract Infections epidemiology, Respiratory Tract Infections virology

Abstract

Enterovirus D68 (EV-D68) is associated with a broad spectrum of illnesses, including mild to severe acute respiratory illness (ARI) and acute flaccid myelitis (AFM). Enteroviruses, including EV-D68, are typically detected in the United States during late summer through fall, with year-to-year fluctuations. Before 2014, EV-D68 was infrequently reported to CDC (1). However, numbers of EV-D68 detection have increased in recent years, with a biennial pattern observed during 2014-2018 in the United States, after the expansion of surveillance and wider availability of molecular testing. In 2014, a national outbreak of EV-D68 was detected (2). EV-D68 was also reported in 2016 via local (3) and passive national (4) surveillance. EV-D68 detections were limited in 2017, but substantial circulation was observed in 2018 (5). To assess recent levels of circulation, EV-D68 detections in respiratory specimens collected from patients aged <18 years* with ARI evaluated in emergency departments (EDs) or admitted to one of seven U.S. medical centers † within the New Vaccine Surveillance Network (NVSN) were summarized. This report provides a provisional description of EV-D68 detections during July-November in 2018, 2019 and 2020, and describes the demographic and clinical characteristics of these patients. In 2018, a total of 382 EV-D68 detections in respiratory specimens obtained from patients aged <18 years with ARI were reported by NVSN; the number decreased to six detections in 2019 and 30 in 2020. Among patients aged <18 years with EV-D68 in 2020, 22 (73%) were non-Hispanic Black (Black) persons. EV-D68 detections in 2020 were lower than anticipated based on the biennial circulation pattern observed since 2014. The circulation of EV-D68 in 2020 might have been limited by widespread COVID-19 mitigation measures; how these changes in behavior might influence the timing and levels of circulation in future years is unknown. Ongoing monitoring of EV-D68 detections is warranted for preparedness for EV-D68-associated ARI and AFM., Competing Interests: All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. Janet A. Englund reports institutional research support from AstraZeneca, Merck & Co., Pfizer Inc., and GlaxoSmithKline plc; consulting fees from Sanofi Pasteur, Meissa Vaccines Incorporated, AstraZeneca, and Teva Pharmaceutical Industries Ltd.; and unpaid membership on the publication committees for the Infectious Diseases Society of America and the Pediatric Infectious Diseases Society. Christopher J. Harrison reports institutional grant support from GlaxoSmithKline plc and Pfizer Inc., for vaccine studies and from Merck & Co. for a study of antibiotic resistance, and royalties from UpToDate for editing chapter on rotavirus. Natasha B. Halasa reports institutional support from Sanofi Pasteur and Quidel Corporation. Geoffrey A. Weinberg reports honoraria as a consultant to ReViral Ltd, and as an author of textbook chapters in the Merck Manual. No other potential conflicts of interest were disclosed.

Published

2021

13. Severe Acute Respiratory Syndrome Coronavirus 2 Infections in Children: Multicenter Surveillance, United States, January-March 2020.

Author

Rha B, Lively JY, Englund JA, Staat MA, Weinberg GA, Selvarangan R, Halasa NB, Williams JV, Boom JA, Sahni LC, Michaels MG, Stewart LS, Harrison CJ, Szilagyi PG, McNeal MM, Klein EJ, Strelitz B, Lacombe K, Schlaudecker E, Moffatt ME, Schuster JE, Pahud BA, Weddle G, Hickey RW, Avadhanula V, Wikswo ME, Hall AJ, Curns AT, Gerber SI, and Langley G

Subjects

Adolescent, COVID-19, COVID-19 Testing, Child, Child, Preschool, Clinical Laboratory Techniques methods, Clinical Laboratory Techniques statistics & numerical data, Coronavirus Infections diagnosis, Female, Humans, Infant, Infant, Newborn, Male, Pandemics, Pneumonia, Viral diagnosis, Reverse Transcriptase Polymerase Chain Reaction, SARS-CoV-2, United States epidemiology, Betacoronavirus isolation & purification, Coronavirus Infections epidemiology, Pneumonia, Viral epidemiology, Public Health Surveillance

Abstract

Previous reports of coronavirus disease 2019 among children in the United States have been based on health jurisdiction reporting. We performed severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) testing on children enrolled in active, prospective, multicenter surveillance during January-March 2020. Among 3187 children, only 4 (0.1%) SARS-CoV-2-positive cases were identified March 20-31 despite evidence of rising community circulation., (Published by Oxford University Press on behalf of The Journal of the Pediatric Infectious Diseases Society 2020.)

Published

2020

14. An Unexpected Cause of Conjunctivitis in an Adolescent.

Author

Dean P, Berger T, Matt M, Schlaudecker E, and Riney L

Subjects

Adolescent, Antitubercular Agents therapeutic use, Conjunctivitis drug therapy, Diagnosis, Differential, Ethambutol therapeutic use, Glucocorticoids therapeutic use, Humans, Isoniazid therapeutic use, Male, Prednisolone therapeutic use, Pyrazinamide therapeutic use, Rifampin therapeutic use, Tuberculosis, Pulmonary drug therapy, Conjunctivitis etiology, Tuberculosis, Pulmonary complications, Tuberculosis, Pulmonary diagnosis

Published

2020

15. Fever in the Returning Traveler.

Author

Scaggs Huang FA and Schlaudecker E

Subjects

Child, Communicable Diseases, Imported epidemiology, Communicable Diseases, Imported virology, Dengue diagnosis, Dengue transmission, Diagnosis, Differential, Fever epidemiology, Fever virology, Humans, Internationality, Malaria diagnosis, Malaria transmission, Travel, Tropical Climate, Typhoid Fever diagnosis, Typhoid Fever transmission, Communicable Diseases, Imported diagnosis, Fever diagnosis, Fever etiology, Travel-Related Illness

Abstract

Millions of children travel annually, whether they are refugees, international adoptees, visitors, or vacationers. Although most young travelers do well, many develop a febrile illness during or shortly after their trips. Approaching a fever in the returning traveler requires an appropriate index of suspicion to diagnose and treat in a timely manner. As many as 34% of patients with recent travel history are diagnosed with routine infections, but serious infections such as malaria, enteric fever, and dengue fever should be on the differential diagnosis due the high morbidity and mortality in children., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

16. Neonatal infections: Case definition and guidelines for data collection, analysis, and presentation of immunisation safety data.

Author

Vergnano S, Buttery J, Cailes B, Chandrasekaran R, Chiappini E, Clark E, Cutland C, de Andrade SD, Esteves-Jaramillo A, Guinazu JR, Jones C, Kampmann B, King J, Kochhar S, Macdonald N, Mangili A, de Menezes Martins R, Velasco Muñoz C, Padula M, Muñoz FM, Oleske J, Sanicas M, Schlaudecker E, Spiegel H, Subelj M, Sukumaran L, Tagbo BN, Top KA, Tran D, and Heath PT

Subjects

Bacteremia epidemiology, Bacteremia prevention & control, Data Collection, Female, Humans, Infant, Newborn, Meningitis epidemiology, Meningitis prevention & control, Sepsis epidemiology, Sepsis prevention & control, Statistics as Topic, Communicable Disease Control, Immunization adverse effects, Infections epidemiology, Vaccines adverse effects

Abstract

Maternal vaccination is an important area of research and requires appropriate and internationally comparable definitions and safety standards. The GAIA group, part of the Brighton Collaboration was created with the mandate of proposing standardised definitions applicable to maternal vaccine research. This study proposes international definitions for neonatal infections. The neonatal infections GAIA working group performed a literature review using Medline, EMBASE and the Cochrane collaboration and collected definitions in use in neonatal and public health networks. The common criteria derived from the extensive search formed the basis for a consensus process that resulted in three separate definitions for neonatal blood stream infections (BSI), meningitis and lower respiratory tract infections (LRTI). For each definition three levels of evidence are proposed to ensure the applicability of the definitions to different settings. Recommendations about data collection, analysis and presentation are presented and harmonized with the Brighton Collaboration and GAIA format and other existing international standards for study reporting., (Copyright © 2016. Published by Elsevier Ltd.)

Published

2016