Comparison of air pollution mortality effect estimates using different long-term exposure assessment modelling methods

Femke Bouma; Nicole AH. Janssen; Joost Wesseling; Sjoerd van Ratingen; Jules Kerckhoffs; Ulrike Gehring; Wouter Hendricx; Kees de Hoogh; Roel Vermeulen; Gerard Hoek

doi:10.1016/j.envres.2025.121832

Comparison of air pollution mortality effect estimates using different long-term exposure assessment modelling methods

Femke Bouma^*, Nicole AH. Janssen, Joost Wesseling, Sjoerd van Ratingen, Jules Kerckhoffs, Ulrike Gehring, Wouter Hendricx, Kees de Hoogh, Roel Vermeulen, Gerard Hoek

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

INTRODUCTION: Epidemiological studies have used different approaches to assess long-term exposure to ambient air pollution. Little is known about how different exposure models affect health effect estimates in these studies. The aim of this study was to compare air pollution mortality effect estimates in an administrative cohort in the Netherlands based on different exposure assessment methods for black carbon (BC), nitrogen dioxide (NO 2), ultrafine particles (UFP), and particulate matter <2.5 μm (PM 2.5).

METHODS: Annual average air pollution exposure estimates using eight methods, differing in modelling and monitoring strategy, were applied to a Dutch national cohort of 10.7 million adults aged ≥30 years. Dispersion and land-use regression models based on mobile and fixed-site monitoring were evaluated. Follow-up was from 2013 to 2019. Hazard ratios (HR) for natural and cause-specific mortality were estimated using Cox proportional hazards models.

RESULTS: Exposure estimates from different models were highly correlated. Even though the direction of mortality effect estimates was similar between methods, their magnitude differed substantially, e.g. the HR for BC with natural mortality ranged from 1.01 to 1.09 per increment of 1 μg/m 3. No consistent differences in effect estimates were found between deterministic and empirical fixed-site and mobile models. Model predictions over a 10-year period correlated highly and resulted in similar HRs.

DISCUSSION: Different exposure models resulted in similar conclusions about the presence of associations with mortality, but HRs differed up to a ratio of 1.27. Differences in exposure assessment may therefore contribute to the observed heterogeneity of mortality estimates in systematic reviews of epidemiological studies.

Original language	English
Article number	121832
Number of pages	13
Journal	Environmental Research
Volume	279
Issue number	Part 2
Early online date	12 May 2025
DOIs	https://doi.org/10.1016/j.envres.2025.121832
Publication status	E-pub ahead of print - 12 May 2025

Bibliographical note

Publisher Copyright:
© 2025 The Authors

Funding

This work was supported by the Health Effects Institute (project \u201CComparison of long-term air pollution exposure assessment based on mobile monitoring, low-cost sensors, dispersion modelling and routine monitoring-based models\u201D, HEI Research Agreement Number: 4973-RFA19-1/20 -).

Funders	Funder number
Health Effects Institute	4973-RFA19-1/20 -

Keywords

Air pollution
Method comparison
Mortality

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Comparison of air pollution mortality effect estimates using different long-term exposure assessment modelling methodsFinal published version, 4.72 MBLicence: CC BY

Cite this

Bouma, F., Janssen, N. AH., Wesseling, J., van Ratingen, S., Kerckhoffs, J., Gehring, U., Hendricx, W., de Hoogh, K., Vermeulen, R., & Hoek, G. (2025). Comparison of air pollution mortality effect estimates using different long-term exposure assessment modelling methods. Environmental Research, 279(Part 2), Article 121832. Advance online publication. https://doi.org/10.1016/j.envres.2025.121832

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abstract = "INTRODUCTION: Epidemiological studies have used different approaches to assess long-term exposure to ambient air pollution. Little is known about how different exposure models affect health effect estimates in these studies. The aim of this study was to compare air pollution mortality effect estimates in an administrative cohort in the Netherlands based on different exposure assessment methods for black carbon (BC), nitrogen dioxide (NO 2), ultrafine particles (UFP), and particulate matter <2.5 μm (PM 2.5). METHODS: Annual average air pollution exposure estimates using eight methods, differing in modelling and monitoring strategy, were applied to a Dutch national cohort of 10.7 million adults aged ≥30 years. Dispersion and land-use regression models based on mobile and fixed-site monitoring were evaluated. Follow-up was from 2013 to 2019. Hazard ratios (HR) for natural and cause-specific mortality were estimated using Cox proportional hazards models.RESULTS: Exposure estimates from different models were highly correlated. Even though the direction of mortality effect estimates was similar between methods, their magnitude differed substantially, e.g. the HR for BC with natural mortality ranged from 1.01 to 1.09 per increment of 1 μg/m 3. No consistent differences in effect estimates were found between deterministic and empirical fixed-site and mobile models. Model predictions over a 10-year period correlated highly and resulted in similar HRs. DISCUSSION: Different exposure models resulted in similar conclusions about the presence of associations with mortality, but HRs differed up to a ratio of 1.27. Differences in exposure assessment may therefore contribute to the observed heterogeneity of mortality estimates in systematic reviews of epidemiological studies.",

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author = "Femke Bouma and Janssen, {Nicole AH.} and Joost Wesseling and {van Ratingen}, Sjoerd and Jules Kerckhoffs and Ulrike Gehring and Wouter Hendricx and {de Hoogh}, Kees and Roel Vermeulen and Gerard Hoek",

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AU - Janssen, Nicole AH.

AU - Wesseling, Joost

AU - van Ratingen, Sjoerd

AU - Kerckhoffs, Jules

AU - Gehring, Ulrike

AU - Hendricx, Wouter

AU - de Hoogh, Kees

AU - Vermeulen, Roel

AU - Hoek, Gerard

PY - 2025/5/12

Y1 - 2025/5/12

N2 - INTRODUCTION: Epidemiological studies have used different approaches to assess long-term exposure to ambient air pollution. Little is known about how different exposure models affect health effect estimates in these studies. The aim of this study was to compare air pollution mortality effect estimates in an administrative cohort in the Netherlands based on different exposure assessment methods for black carbon (BC), nitrogen dioxide (NO 2), ultrafine particles (UFP), and particulate matter <2.5 μm (PM 2.5). METHODS: Annual average air pollution exposure estimates using eight methods, differing in modelling and monitoring strategy, were applied to a Dutch national cohort of 10.7 million adults aged ≥30 years. Dispersion and land-use regression models based on mobile and fixed-site monitoring were evaluated. Follow-up was from 2013 to 2019. Hazard ratios (HR) for natural and cause-specific mortality were estimated using Cox proportional hazards models.RESULTS: Exposure estimates from different models were highly correlated. Even though the direction of mortality effect estimates was similar between methods, their magnitude differed substantially, e.g. the HR for BC with natural mortality ranged from 1.01 to 1.09 per increment of 1 μg/m 3. No consistent differences in effect estimates were found between deterministic and empirical fixed-site and mobile models. Model predictions over a 10-year period correlated highly and resulted in similar HRs. DISCUSSION: Different exposure models resulted in similar conclusions about the presence of associations with mortality, but HRs differed up to a ratio of 1.27. Differences in exposure assessment may therefore contribute to the observed heterogeneity of mortality estimates in systematic reviews of epidemiological studies.

AB - INTRODUCTION: Epidemiological studies have used different approaches to assess long-term exposure to ambient air pollution. Little is known about how different exposure models affect health effect estimates in these studies. The aim of this study was to compare air pollution mortality effect estimates in an administrative cohort in the Netherlands based on different exposure assessment methods for black carbon (BC), nitrogen dioxide (NO 2), ultrafine particles (UFP), and particulate matter <2.5 μm (PM 2.5). METHODS: Annual average air pollution exposure estimates using eight methods, differing in modelling and monitoring strategy, were applied to a Dutch national cohort of 10.7 million adults aged ≥30 years. Dispersion and land-use regression models based on mobile and fixed-site monitoring were evaluated. Follow-up was from 2013 to 2019. Hazard ratios (HR) for natural and cause-specific mortality were estimated using Cox proportional hazards models.RESULTS: Exposure estimates from different models were highly correlated. Even though the direction of mortality effect estimates was similar between methods, their magnitude differed substantially, e.g. the HR for BC with natural mortality ranged from 1.01 to 1.09 per increment of 1 μg/m 3. No consistent differences in effect estimates were found between deterministic and empirical fixed-site and mobile models. Model predictions over a 10-year period correlated highly and resulted in similar HRs. DISCUSSION: Different exposure models resulted in similar conclusions about the presence of associations with mortality, but HRs differed up to a ratio of 1.27. Differences in exposure assessment may therefore contribute to the observed heterogeneity of mortality estimates in systematic reviews of epidemiological studies.

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Comparison of air pollution mortality effect estimates using different long-term exposure assessment modelling methods

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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