4.8 Article

Air pollution during infancy and lung function development into adolescence: The GINIplus/LISA birth cohorts study

Journal

ENVIRONMENT INTERNATIONAL
Volume 146, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.envint.2020.106195

Keywords

Children; Environmental exposure; Respiratory health

Funding

  1. Marien-Hospital Wesel
  2. LMU Munich
  3. TU Munich
  4. IUF-Leibniz Research Institute for Environmental Medicine
  5. Federal Ministry for Environment (IUF) [FKZ 20462296]
  6. Federal Ministry for Education, Science, Research and Technology
  7. Helmholtz Centre for Environ-mental Research-UFZ, Leipzig
  8. Pediatric Practice, Bad Honnef
  9. Helmholtz Centre for Environmental Research-UFZ, Leipzig
  10. Commission of the European Communities
  11. 7th Framework Program (MeDALLproject)
  12. Mead Johnson company (GINIplus only)
  13. Nestle company (GINIplus only)
  14. NeuroSmog: Determining the impact of air pollution on the developing brain [POIR.04.04.001763/18-00]
  15. EU from the European Regional Development Fund under the Smart Growth Operational Programme
  16. Helmholtz Zentrum Munich

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The study found that exposure to air pollution during infancy is associated with decreased lung function development, particularly affecting airway size. Maternal age, asthma status of children, and breastfeeding may play a modifying role in this association.
Background: Limited evidence exists on how air pollution exposure during infancy, i.e. the first year of life, may affect lung function development into adolescence. Objectives: To investigate the association between exposure to air pollution during the first-year of life and lung function development up to the age of 15 in Germany. Methods: We investigated 915 children from the GINIplus and LISA birth cohorts from Munich (n = 181) and Wesel (n = 734), who had at least two spirometric measurements at ages 6, 10 and 15. Z-scores of forced expiratory volume in one second (FEV1) and forced vital capacity (FVC) were calculated. Annual average concentrations of nitrogen dioxide, particulate matter with diameters <2.5, <10 and 2.5-10 mu m (PM2.5/10/coarse), and PM2.5 absorbance at home addresses during the first-year of life, were estimated by land-use regression models. Associations between infancy exposure and lung function changes were fitted using multivariable linear mixed models with adjustment for potential confounders. Results: For per interquartile range increase in air pollutants during the first-year life, FEV1 z-scores declined annually by -0.012 (95% confidence interval (CI): -0.014, -0.009) for PM2.5 to -0.023 (95%CI: -0.028, -0.018) for PMcoarse. The declines in FVC were lower than FEV1 [-0.006 (95%CI: -0.008, -0.003) to 0.011 (95%CI: -0.019, -0.003)]. In Munich, the attenuations were only significant for FEV1. Effect estimates of infancy exposure for certain air pollutants were higher for groups with asthma, older maternal age, and breastfeeding <12 weeks than their counterparts. Discussion: Infancy exposure to higher air pollution may reduce lung function development up to adolescence, with airway size more affected than lung volume restriction. The potential modifying effects of maternal age, asthmatic status of children and breastfeeding warrant further exploration.

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