The impact of persistent high ambient fine particulate matters exposures on mortality in the 40 districts/counties of China, 2013-2015

Chen Chen; Zhiying Sun; Qinghua Sun; Jie Ban; Tiantian LI

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The impact of persistent high ambient fine particulate matters exposures on mortality in the 40 districts/counties of China, 2013-2015

VernacularTitle: 2013—2015年大气PM_2.5持续高暴露对中国40个区/县人群死亡的影响
Author: Chen CHEN ¹ ; Zhiying SUN ; Qinghua SUN ; Jie BAN ; Tiantian LI
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1. Department of Environment and Health Risk Assessment, National Institute of Environmental Health, Chinese Center for Disease Control and Prevention, Beijing 100021, China
Publication Type:Journal Article
Keywords: Particulate matter; Death; Multicenter study; Ecological study
From: Chinese Journal of Preventive Medicine 2019;53(1):76-80
CountryChina
Language:Chinese
Abstract: Objective:To investigate the impact of persistent high ambient fine particulate matters (PM_2.5) exposures on mortality in the polluted areas of 40 districts/counties in China.
Methods:Using a convenient sampling method, we selected 40 districts/counties as research sites from the Beijing-Tianjin-Hebei Metropolitan Region, the Yangtze River Delta, the Pearl River Delta, and Heilongjiang, Shanxi, and Sichuan province. The daily concentrations of PM_2.5, meteorological data and population death data from January 1, 2013 to December 31, 2015 were collected. The six persistent PM₂.5 pollution episode scenarios were defined by the average daily concentration of PM_2.5 (75 μg/m³, P₇₅ and P₉₀ of the average daily concentration of each district/county respectively) and the duration (≥2 days or 3 days). Generalized linear models and meta analyses were used to explore the impact of PM_2.5 pollution episodes on mortality in 40 districts/counties.
Results:The mean±SD and P₅₀ (P₂₅, P₇₅) of average daily temperature, relative humidity and PM_2.5 were (15.26±10.48) ℃, 17.20 (7.50, 23.70) ℃, (67.31±19.26)%, 72.00% (57.00%, 81.00%), (72.81±60.93) μg/m³ and 55.38 (33.77, 91.45) μg/m³, respectively in 40 districts/counties during 2013-2015. The average number of non-accidental, cardiovascular and cerebrovascular diseases deaths per day were (12±7), (5±4) and (2±2) in each district/county, respectively. When the daily concentrations of PM_2.5 were ≥75 μg/m³ (≥2 days), ≥P₇₅ (≥2 days), ≥P₉₀ (≥2 days), ≥75 μg/m³ (≥3 days), and ≥P₇₅ (≥3 days), the excess risk (95%CI) of the total non-accidental deaths and cardiovascular diseases deaths were 1.77% (0.89%,2.66%), 2.69% (1.06%,4.35%), 1.67% (0.59%,2.76%), 2.31% (0.67%, 3.97%), 0.71% (-0.75%, 2.20%), 1.95% (0.08%, 3.86%), 1.15% (0.12%, 2.18%), 1.85% (0.25%, 3.47%), 1.39% (0.15%, 2.64%), 2.29% (0.39%, 4.23%), respectively.
Conclusion:Persistently high PM_2.5 exposures were associated with total non-accidental deaths and cardiovascular disease deaths.