International Journal of Public Health (Nov 2023)

The Berlin-Brandenburg Air Study—A Methodological Study Paper of a Natural Experiment Investigating Health Effects Related to Changes in Airport-Related Exposures

  • Vanessa Soppa,
  • Sarah Lucht,
  • Sarah Lucht,
  • Katherine Ogurtsova,
  • Anna Buschka,
  • Mónica López-Vicente,
  • Mónica López-Vicente,
  • Mónica López-Vicente,
  • Mónica López-Vicente,
  • Mònica Guxens,
  • Mònica Guxens,
  • Mònica Guxens,
  • Mònica Guxens,
  • Kay Weinhold,
  • Ulf Winkler,
  • Alfred Wiedensohler,
  • Andreas Held,
  • Sabine Lüchtrath,
  • Josef Cyrys,
  • Simonas Kecorius,
  • Petra Gastmeier,
  • Miriam Wiese-Posselt,
  • Barbara Hoffmann

DOI
https://doi.org/10.3389/ijph.2023.1606096
Journal volume & issue
Vol. 68

Abstract

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Objectives: This paper presents the study design of the Berlin-Brandenburg Air study (BEAR-study). We measure air quality in Berlin and Brandenburg before and after the relocation of aircraft (AC) traffic from Tegel (TXL) airport to the new Berlin-Brandenburg airport (BER) and investigate the association of AC-related ultrafine particles (UFP) with health outcomes in schoolchildren.Methods: The BEAR-study is a natural experiment examining schoolchildren attending schools near TXL and BER airports, and in control areas (CA) away from both airports and associated air corridors. Each child undergoes repeated school-based health-examinations. Total particle number concentration (PNC) and meteorological parameters are continuously monitored. Submicrometer particle number size distribution, equivalent black carbon, and gas-phase pollutants are collected from long-term air quality monitoring stations. Daily source-specific UFP concentrations are modeled. We will analyze short-term effects of UFP on respiratory, cardiovascular, and neurocognitive outcomes, as well as medium and long-term effects on lung growth and cognitive development.Results: We examined 1,070 children (as of 30 November 2022) from 16 schools in Berlin and Brandenburg.Conclusion: The BEAR study increases the understanding of how AC-related UFP affect children’s health.

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