US Childhood Asthma Incidence Rate Patterns From the ECHO Consortium to Identify High-Risk Groups for Primary Prevention.

Importance Asthma is the leading chronic illness in US children, but most descriptive epidemiological data are focused on prevalence. Objective To evaluate childhood asthma incidence rates across the nation by core demographic strata and parental history of asthma. Design, Setting, and Participants For this cohort study, a distributed meta-analysis was conducted within the Environmental Influences on Child Health Outcomes (ECHO) consortium for data collected from May 1, 1980, through March 31, 2018. Birth cohort data of children from 34 gestational weeks of age or older to 18 years of age from 31 cohorts in the ECHO consortium were included. Data were analyzed from June 14, 2018, to February 18, 2020. Exposures Caregiver report of physician-diagnosed asthma with age of diagnosis. Main Outcome and Measures Asthma incidence survival tables generated by each cohort were combined for each year of age using the Kaplan-Meier method. Age-specific incidence rates for each stratum and asthma incidence rate ratios by parental family history (FH), sex, and race/ethnicity were calculated. Results Of the 11 404 children (mean [SD] age, 10.0 [0.7] years; 5836 boys [51%]; 5909 White children [53%]) included in the primary analysis, 7326 children (64%) had no FH of asthma, 4078 (36%) had an FH of asthma, and 2494 (23%) were non-Hispanic Black children. Children with an FH had a nearly 2-fold higher incidence rate through the fourth year of life (incidence rate ratio [IRR], 1.94; 95% CI, 1.76-2.16) after which the rates converged with the non-FH group. Regardless of FH, asthma incidence rates among non-Hispanic Black children were markedly higher than those of non-Hispanic White children during the preschool years (IRR, 1.58; 95% CI, 1.31-1.86) with no FH at age 4 years and became lower than that of White children after age 9 to 10 years (IRR, 0.67; 95% CI, 0.50-0.89) with no FH. The rates for boys declined with age, whereas rates among girls were relatively steady across all ages, particularly among those without an FH of asthma. Conclusions and Relevance Analysis of these diverse birth cohorts suggests that asthma FH, as well as race/ethnicity and sex, were all associated with childhood asthma incidence rates. Black children had much higher incidences rates but only during the preschool years, irrespective of FH. To prevent asthma among children with an FH of asthma or among Black infants, results suggest that interventions should be developed to target early life.

[1]  P. Poowuttikul,et al.  New Concepts and Technological Resources in Patient Education and Asthma Self-Management , 2020, Clinical Reviews in Allergy & Immunology.

[2]  M. McCormack,et al.  Childhood Origins of Adult Lung Disease as Opportunities for Prevention. , 2020, The journal of allergy and clinical immunology. In practice.

[3]  P. Clarke,et al.  US racial/ethnic disparities in childhood asthma emergent health care use: National Health Interview Survey, 2013–2015 , 2020, The Journal of asthma : official journal of the Association for the Care of Asthma.

[4]  A. Sheikh,et al.  Next-generation ARIA care pathways for rhinitis and asthma: a model for multimorbid chronic diseases , 2019, Clinical and Translational Allergy.

[5]  J. Bousquet,et al.  Sex-specific incidence of asthma, rhinitis and respiratory multimorbidity before and after puberty onset: individual participant meta-analysis of five birth cohorts collaborating in MeDALL , 2019, BMJ Open Respiratory Research.

[6]  P. Cullinan,et al.  Distinguishing Wheezing Phenotypes from Infancy to Adolescence. A Pooled Analysis of Five Birth Cohorts , 2019, Annals of the American Thoracic Society.

[7]  K. Berhane,et al.  Association of Changes in Air Quality With Incident Asthma in Children in California, 1993-2014. , 2019, JAMA.

[8]  L. Bacharier,et al.  Potential Strategies and Targets for the Prevention of Pediatric Asthma. , 2019, Immunology and allergy clinics of North America.

[9]  N. Serban,et al.  Asthma Prevalence Among Medicaid-Enrolled Children. , 2019, The journal of allergy and clinical immunology. In practice.

[10]  Cathy M. Bailey,et al.  Vital Signs: Asthma in Children — United States, 2001–2016 , 2018, MMWR. Morbidity and mortality weekly report.

[11]  Rosalind J Wright,et al.  Prenatal Nitrate Exposure and Childhood Asthma. Influence of Maternal Prenatal Stress and Fetal Sex , 2017, American journal of respiratory and critical care medicine.

[12]  Megan M. Tschudy,et al.  Pediatric Asthma Health Disparities: Race, Hardship, Housing, and Asthma in a National Survey. , 2017, Academic pediatrics.

[13]  M. Chan,et al.  DNA methylation levels associated with race and childhood asthma severity , 2017, The Journal of asthma : official journal of the Association for the Care of Asthma.

[14]  A. Levin,et al.  Joint effects of pregnancy, sociocultural, and environmental factors on early life gut microbiome structure and diversity , 2016, Scientific Reports.

[15]  Richard Beasley,et al.  Risk factors for asthma: is prevention possible? , 2015, The Lancet.

[16]  N. Breslau,et al.  Birth weight and asthma incidence by asthma phenotype pattern in a racially diverse cohort followed through adolescence , 2015, The Journal of asthma : official journal of the Association for the Care of Asthma.

[17]  K. Verhamme,et al.  Time trends in the incidence, prevalence and age at diagnosis of asthma in children , 2015, Pediatric allergy and immunology : official publication of the European Society of Pediatric Allergy and Immunology.

[18]  R. Lemanske,et al.  Childhood asthma-predictive phenotype. , 2014, The journal of allergy and clinical immunology. In practice.

[19]  Alan E. Simon,et al.  Trends in racial disparities for asthma outcomes among children 0 to 17 years, 2001-2010. , 2014, The Journal of allergy and clinical immunology.

[20]  Rosalind J Wright,et al.  Birth cohorts in asthma and allergic diseases: report of a NIAID/NHLBI/MeDALL joint workshop. , 2014, The Journal of allergy and clinical immunology.

[21]  I. Buchan,et al.  Trajectories of lung function during childhood. , 2014, American journal of respiratory and critical care medicine.

[22]  I. Janssen,et al.  Asthma incidence and risk factors in a national longitudinal sample of adolescent Canadians: a prospective cohort study , 2014, BMC Pulmonary Medicine.

[23]  L. Akinbami,et al.  National surveillance of asthma: United States, 2001-2010. , 2012, Vital & health statistics. Series 3, Analytical and epidemiological studies.

[24]  D. Cook,et al.  Prenatal and Passive Smoke Exposure and Incidence of Asthma and Wheeze: Systematic Review and Meta-analysis , 2012, Pediatrics.

[25]  Ryan D. Hernandez,et al.  Meta-analysis of Genome-wide Association Studies of Asthma In Ethnically Diverse North American Populations , 2011, Nature Genetics.

[26]  Lisa J. Martin,et al.  Differences in Candidate Gene Association between European Ancestry and African American Asthmatic Children , 2011, PloS one.

[27]  D. Postma,et al.  Gender differences in asthma development and remission during transition through puberty: the TRacking Adolescents' Individual Lives Survey (TRAILS) study. , 2010, The Journal of allergy and clinical immunology.

[28]  Sylvain Arlot,et al.  A survey of cross-validation procedures for model selection , 2009, 0907.4728.

[29]  E. Sondik,et al.  Status of Childhood Asthma in the United States, 1980–2007 , 2009, Pediatrics.

[30]  S. Willsie Obesity and Asthma: A Specific Phenotype? , 2009 .

[31]  L. Boulet,et al.  Obesity and asthma: a specific phenotype? , 2008, Chest.

[32]  C. Pipper,et al.  [''R"--project for statistical computing]. , 2008, Ugeskrift for laeger.

[33]  P. J. Barnes,et al.  Global strategy for asthma management and prevention: GINA executive summary , 2008, European Respiratory Journal.

[34]  M. Worm,et al.  Impact of gender on asthma in childhood and adolescence: a GA2LEN review , 2007, Allergy.

[35]  J. Celedón,et al.  Exposure to dust mite allergen and endotoxin in early life and asthma and atopy in childhood. , 2007, The Journal of allergy and clinical immunology.

[36]  J. Moorman,et al.  Asthma Incidence: Data from the National Health Interview Survey, 1980–1996 , 2007, The Journal of asthma : official journal of the Association for the Care of Asthma.

[37]  M. Sears,et al.  Sex differences in factors associated with childhood- and adolescent-onset wheeze. , 2005, American journal of respiratory and critical care medicine.

[38]  Rosalind Wright,et al.  Population disparities in asthma. , 2005, Annual review of public health.

[39]  J. Kere,et al.  Influence of male sex and parental allergic disease on childhood wheezing: role of interactions , 2004, Clinical and experimental allergy : journal of the British Society for Allergy and Clinical Immunology.

[40]  D G Altman,et al.  Survival probabilities (the Kaplan-Meier method) , 1998, BMJ.

[41]  L. Larsson Incidence of asthma in Swedish teenagers: relation to sex and smoking habits. , 1995, Thorax.

[42]  C E Reed,et al.  A community-based study of the epidemiology of asthma. Incidence rates, 1964-1983. , 1992, The American review of respiratory disease.

[43]  D. Strachan,et al.  Asthma from birth to age 23: incidence and relation to prior and concurrent atopic disease. , 1992, Thorax.

[44]  B. Macmahon,et al.  Epidemiology: Principles and Methods , 1970 .

[45]  D. Falconer The inheritance of liability to certain diseases, estimated from the incidence among relatives , 1965 .

[46]  C. Jennison Bootstrapping the Kaplan-Meier estimator , 2022 .