Long-term dynamics of death rates of emphysema, asthma, and pneumonia and improving air quality
Authors Kravchenko J, Akushevich I, Abernethy A, Holman S, Ross Jr W, Lyerly HK
Received 2 January 2014
Accepted for publication 9 April 2014
Published 16 June 2014 Volume 2014:9(1) Pages 613—627
Checked for plagiarism Yes
Review by Single anonymous peer review
Peer reviewer comments 3
Julia Kravchenko,1 Igor Akushevich,2 Amy P Abernethy,3 Sheila Holman,4 William G Ross Jr,5 H Kim Lyerly1,6
1Department of Surgery, 2Center for Population Health and Aging, 3Duke Clinical Research Institute, Duke University Medical Center, Duke University, Durham, 4Division of Air Quality, North Carolina Department of Environment and Natural Resources, Raleigh, 5Nicholas School of the Environment, 6Department of Pathology, Duke University Medical Center, Duke University, Durham, NC, USA
Background: The respiratory tract is a major target of exposure to air pollutants, and respiratory diseases are associated with both short- and long-term exposures. We hypothesized that improved air quality in North Carolina was associated with reduced rates of death from respiratory diseases in local populations.
Materials and methods: We analyzed the trends of emphysema, asthma, and pneumonia mortality and changes of the levels of ozone, sulfur dioxide (SO2), nitrogen dioxide (NO2), carbon monoxide (CO), and particulate matters (PM2.5 and PM10) using monthly data measurements from air-monitoring stations in North Carolina in 1993–2010. The log-linear model was used to evaluate associations between air-pollutant levels and age-adjusted death rates (per 100,000 of population) calculated for 5-year age-groups and for standard 2000 North Carolina population. The studied associations were adjusted by age group-specific smoking prevalence and seasonal fluctuations of disease-specific respiratory deaths.
Results: Decline in emphysema deaths was associated with decreasing levels of SO2 and CO in the air, decline in asthma deaths–with lower SO2, CO, and PM10 levels, and decline in pneumonia deaths–with lower levels of SO2. Sensitivity analyses were performed to study potential effects of the change from International Classification of Diseases (ICD)-9 to ICD-10 codes, the effects of air pollutants on mortality during summer and winter, the impact of approach when only the underlying causes of deaths were used, and when mortality and air-quality data were analyzed on the county level. In each case, the results of sensitivity analyses demonstrated stability. The importance of analysis of pneumonia as an underlying cause of death was also highlighted.
Conclusion: Significant associations were observed between decreasing death rates of emphysema, asthma, and pneumonia and decreases in levels of ambient air pollutants in North Carolina.
Keywords: chronic obstructive pulmonary disease, sulfur dioxide, carbon monoxide, nitrogen dioxide, particulate matter
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