A New Method Proposed for the Estimation of Exposure to Atmospheric Pollution through the Analysis of Black Pigments on the Lung Surface

Megacities can be considered excellent laboratories for studying the effects of the urban environment on human health. Typically, exposure to pollution is estimated according to daily or annual averages of pollutant concentrations, collected at monitoring stations, using satellite data for remote se...

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Bibliographic Details
Published in:Atmosphere 2024-09, Vol.15 (9), p.1126
Main Authors: Waked, Dunia, Veras, Mariana Matera, Saldiva, Paulo Hilario Nascimento, Takano, Ana Paula Cremasco
Format: Article
Language:English
Subjects:
Aerosols
Air pollution
airborne particles
Autopsies
Autopsy
Biomarkers
Black carbon
Black lung
Carbon
Coal
Consent
Data collection
Deposition
Diagnosis
Environmental health
Estimation
Exposure
Health aspects
Interviews
Laboratories
long-term exposure
Lungs
Measurement
Megacities
Outdoor air quality
Physiological aspects
Pigments
pleura
Pneumoconiosis
Pollutants
Pollution
Pollution levels
Questionnaires
Remote monitoring
Remote sensing
Remote sensors
Satellite data
Service life assessment
Sociodemographics
Surveys
Testing
Urban areas
Urban environments
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Summary:Megacities can be considered excellent laboratories for studying the effects of the urban environment on human health. Typically, exposure to pollution is estimated according to daily or annual averages of pollutant concentrations, collected at monitoring stations, using satellite data for remote sensing of pollutant levels, considering proximity to major roads, or through personal exposure monitoring with portable sensors. However, these approaches fall short in identifying individual exposure values over a lifetime. It is well established that individuals living in large urban areas inhale atmospheric particles containing carbonaceous components, resulting in the deposition of black pigments in lung tissue, known as black carbon or anthracosis. This study aims to detail the procedures for assessing the deposition of such pigments, which serve as an estimate of an individual’s exposure to atmospheric pollution particles. Data collection involves administering detailed questionnaires and capturing lung images in the autopsy room. The analysis is based on macroscopic quantification of black pigments, supplemented by an evaluation of personal habits and the clinical histories of the individuals. This method of estimating lifetime exposure to inhaled particles provides a valuable tool for understanding the correlation between urban living and its potential health effects.
ISSN:2073-4433
2073-4433
DOI:10.3390/atmos15091126