Inflammatory Markers in Relation to Long-term Air Pollution

Overview

Journal Environ Int

Specialties Environmental Health
Toxicology

Date 2015 Apr 22

PMID 25898227

Citations 25

Authors

Nahid Mostafavi

Jelle Vlaanderen

Marc Chadeau-Hyam

Rob Beelen

Lars Modig

Domenico Palli

Ingvar A Bergdahl

Paolo Vineis

Gerard Hoek

Soterios A Kyrtopoulos

Roel Vermeulen

Affiliations

Soon will be listed here.

Abstract

Long-term exposure to ambient air pollution can lead to chronic health effects such as cancer, cardiovascular and respiratory disease. Systemic inflammation has been hypothesized as a putative biological mechanism contributing to these adverse health effects. We evaluated the effect of long-term exposure to air pollution on blood markers of systemic inflammation. We measured a panel of 28 inflammatory markers in peripheral blood samples from 587 individuals that were biobanked as part of a prospective study. Participants were from Varese and Turin (Italy) and Umea (Sweden). Long-term air pollution estimates of nitrogen oxides (NOx) were available from the European Study of Cohorts for Air Pollution Effects (ESCAPE). Linear mixed models adjusted for potential confounders were applied to assess the association between NOx and the markers of inflammation. Long-term exposure to NOx was associated with decreased levels of interleukin (IL)-2, IL-8, IL-10 and tumor necrosis factor-α in Italy, but not in Sweden. NOx exposure levels were considerably lower in Sweden than in Italy (Sweden: median (5th, 95th percentiles) 6.65 μg/m(3) (4.8, 19.7); Italy: median (5th, 95th percentiles) 94.2 μg/m(3) (7.8, 124.5)). Combining data from Italy and Sweden we only observed a significant association between long-term exposure to NOx and decreased levels of circulating IL-8. We observed some indication for perturbations in the inflammatory markers due to long-term exposure to NOx. Effects were stronger in Italy than in Sweden, potentially reflecting the difference in air pollution levels between the two cohorts.

Citing Articles

Air Pollution-Associated Rhinitis: Exploring the Preventive Role of Nutritional Supplements Against Particulate Matter-Induced Inflammation.

Chen S, Tsai S, Chang K, Chuang K, Sufian M, Fan H Nutrients. 2025; 17(5).

PMID: 40077699 PMC: 11902121. DOI: 10.3390/nu17050829.

Assessing the short-term hematological and pulmonary effects of air pollution: a cross-sectional study in a Turkish urban setting.

Kilincer M, Gursoy E BMC Public Health. 2025; 25(1):16.

PMID: 39748373 PMC: 11697805. DOI: 10.1186/s12889-024-21246-6.

Methylomic, Proteomic, and Metabolomic Correlates of Traffic-Related Air Pollution in the Context of Cardiorespiratory Health: A Systematic Review, Pathway Analysis, and Network Analysis.

Casella C, Kiles F, Urquhart C, Michaud D, Kirwa K, Corlin L Toxics. 2023; 11(12).

PMID: 38133415 PMC: 10748071. DOI: 10.3390/toxics11121014.

Circulating Exosomes and Ambient Air Pollution Exposure in COPD.

Soleimanifar N, Assadiasl S, Kalateh E, Hassanvand M, Sadr M, Mojtahedi H Chronic Obstr Pulm Dis. 2023; 10(4):412-421.

PMID: 37676651 PMC: 10699492. DOI: 10.15326/jcopdf.2023.0400.

Association of air pollution with postmenopausal breast cancer risk in UK Biobank.

Smotherman C, Sprague B, Datta S, Braithwaite D, Qin H, Yaghjyan L Breast Cancer Res. 2023; 25(1):83.

PMID: 37443054 PMC: 10339564. DOI: 10.1186/s13058-023-01681-w.