ESC Heart Failure (Dec 2020)

A case‐crossover study on the effect of short‐term exposure to moderate levels of air pollution on the risk of heart failure

  • Ariane Huschmann,
  • Marius Rasche,
  • Peter Schlattmann,
  • Otto W. Witte,
  • Matthias Schwab,
  • P. Christian Schulze,
  • Florian Rakers

DOI
https://doi.org/10.1002/ehf2.12977
Journal volume & issue
Vol. 7, no. 6
pp. 3851 – 3858

Abstract

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Abstract Aims Exposure to high levels of air pollution in industrialized urban areas is associated with an increased risk of heart failure (HF). On most days, the majority of European cities are only moderately affected by air pollution. The aim of this study was to evaluate the association between short‐term exposure to moderate levels of air pollution with the risk of HF in a city with good air quality. Methods and results We recruited 576 patients (median age 82 years; 58.2% men) admitted to a large university hospital in Central Germany for HF to participate in a hospital‐based, bidirectional, case‐crossover study. Diagnosis of HF and symptom onset were verified individually. The effect of short‐term exposure to nitrogen dioxide (NO2), particulate matter (PM10), and ozone (O3) on the risk of HF was estimated using linear and non‐linear (categorized) multivariate analyses for three different lag times (1, 2, and 3 days before HF onset). Air pollution variables were adjusted to the date of HF symptom onset. During the study period, the average daily concentration of air pollutants was only moderate and reflects the average European background air pollution. In particular, the concentration of air pollutants ranged from 2 to 63.39 μg/m3 (median = 17.46 μg/m3) for NO2, from 2 to 125.88 μg/m3 (median = 44.61 μg/m3) for O3, and from 2.21 to 166.79 μg/m3 (median = 18.67 μg/m3) for PM10. We did not find a linear or non‐linear association between short‐term exposure to NO2, O3, or PM10 and risk for HF at all lag times in the overall population and subgroups. Conclusions In an area with only moderate air pollution, short‐term exposure to major air pollutants does not increase the risk for HF. Future studies should focus on a potential threshold effect of air pollution on HF risk as a basis for evidence‐based development of statutory limits in highly polluted areas.

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