A global perspective on coal-fired power plants and burden of lung cancer

A global perspective on coal-fired power plants and burden of lung cancer

Abstract Background Exposure to ambient particulate matter generated from coal-fired power plants induces long-term health consequences. However, epidemiologic studies have not yet focused on attributing these health burdens specifically to energy consumption, impeding targeted intervention policies...

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Main Authors: Cheng-Kuan Lin, Ro-Ting Lin, Tom Chen, Corwin Zigler, Yaguang Wei, David C. Christiani
Format: Article
Language:English
Published: BMC 2019-01-01
Series:Environmental Health
Subjects:
Coal capacity
Coal-fired power plants
Energy matrix
Environmental factor
Global burden disease
Lung cancer incidence
Online Access:http://link.springer.com/article/10.1186/s12940-019-0448-8
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spelling doaj-f33ad394de634523a27c531a69c44da02020-11-25T01:37:55ZengBMCEnvironmental Health1476-069X2019-01-0118111110.1186/s12940-019-0448-8A global perspective on coal-fired power plants and burden of lung cancerCheng-Kuan Lin0Ro-Ting Lin1Tom Chen2Corwin Zigler3Yaguang Wei4David C. Christiani5Department of Environmental Health, Harvard T.H. Chan School of Public HealthDepartment of Occupational Safety and Health, China Medical UniversityDepartment of Biostatistics, Harvard T.H. Chan School of Public HealthDepartment of Biostatistics, Harvard T.H. Chan School of Public HealthDepartment of Environmental Health, Harvard T.H. Chan School of Public HealthDepartment of Environmental Health, Harvard T.H. Chan School of Public HealthAbstract Background Exposure to ambient particulate matter generated from coal-fired power plants induces long-term health consequences. However, epidemiologic studies have not yet focused on attributing these health burdens specifically to energy consumption, impeding targeted intervention policies. We hypothesize that the generating capacity of coal-fired power plants may be associated with lung cancer incidence at the national level. Methods Age- and sex-adjusted lung cancer incidence from every country with electrical plants using coal as primary energy supply were followed from 2000 to 2016. We applied a Poisson regression longitudinal model, fitted using generalized estimating equations, to estimate the association between lung cancer incidence and per capita coal capacity, adjusting for various behavioral and demographic determinants and lag periods. Results The average coal capacity increased by 1.43 times from 16.01 gigawatts (GW) (2000~2004) to 22.82 GW (2010~2016). With 1 kW (KW) increase of coal capacity per person in a country, the relative risk of lung cancer increases by a factor of 59% (95% CI = 7.0%~ 135%) among males and 85% (95% CI = 22%~ 182%) among females. Based on the model, we estimate a total of 1.37 (range = 1.34 ~ 1.40) million standardized incident cases from lung cancer will be associated with coal-fired power plants in 2025. Conclusions These analyses suggest an association between lung cancer incidence and increased reliance on coal for energy generation. Such data may be helpful in addressing a key policy question about the externality costs and estimates of the global disease burden from preventable lung cancer attributable to coal-fired power plants at the national level.http://link.springer.com/article/10.1186/s12940-019-0448-8Coal capacityCoal-fired power plantsEnergy matrixEnvironmental factorGlobal burden diseaseLung cancer incidence
collection DOAJ
language English
format Article
sources DOAJ
author Cheng-Kuan Lin
Ro-Ting Lin
Tom Chen
Corwin Zigler
Yaguang Wei
David C. Christiani
spellingShingle Cheng-Kuan Lin
Ro-Ting Lin
Tom Chen
Corwin Zigler
Yaguang Wei
David C. Christiani
A global perspective on coal-fired power plants and burden of lung cancer
Environmental Health
Coal capacity
Coal-fired power plants
Energy matrix
Environmental factor
Global burden disease
Lung cancer incidence
author_facet Cheng-Kuan Lin
Ro-Ting Lin
Tom Chen
Corwin Zigler
Yaguang Wei
David C. Christiani
author_sort Cheng-Kuan Lin
title A global perspective on coal-fired power plants and burden of lung cancer
title_short A global perspective on coal-fired power plants and burden of lung cancer
title_full A global perspective on coal-fired power plants and burden of lung cancer
title_fullStr A global perspective on coal-fired power plants and burden of lung cancer
title_full_unstemmed A global perspective on coal-fired power plants and burden of lung cancer
title_sort global perspective on coal-fired power plants and burden of lung cancer
publisher BMC
series Environmental Health
issn 1476-069X
publishDate 2019-01-01
description Abstract Background Exposure to ambient particulate matter generated from coal-fired power plants induces long-term health consequences. However, epidemiologic studies have not yet focused on attributing these health burdens specifically to energy consumption, impeding targeted intervention policies. We hypothesize that the generating capacity of coal-fired power plants may be associated with lung cancer incidence at the national level. Methods Age- and sex-adjusted lung cancer incidence from every country with electrical plants using coal as primary energy supply were followed from 2000 to 2016. We applied a Poisson regression longitudinal model, fitted using generalized estimating equations, to estimate the association between lung cancer incidence and per capita coal capacity, adjusting for various behavioral and demographic determinants and lag periods. Results The average coal capacity increased by 1.43 times from 16.01 gigawatts (GW) (2000~2004) to 22.82 GW (2010~2016). With 1 kW (KW) increase of coal capacity per person in a country, the relative risk of lung cancer increases by a factor of 59% (95% CI = 7.0%~ 135%) among males and 85% (95% CI = 22%~ 182%) among females. Based on the model, we estimate a total of 1.37 (range = 1.34 ~ 1.40) million standardized incident cases from lung cancer will be associated with coal-fired power plants in 2025. Conclusions These analyses suggest an association between lung cancer incidence and increased reliance on coal for energy generation. Such data may be helpful in addressing a key policy question about the externality costs and estimates of the global disease burden from preventable lung cancer attributable to coal-fired power plants at the national level.
topic Coal capacity
Coal-fired power plants
Energy matrix
Environmental factor
Global burden disease
Lung cancer incidence
url http://link.springer.com/article/10.1186/s12940-019-0448-8
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