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Effects of combined exposure to fine particulate matter and cold waves and on IHD hospitalizations at low and high altitudes

Zhenxu Ning, Yanjun Ma, Shuzhen He, Genshan Li, Xiaojuan Hua, Chunguang Ma, Jing Wu

2024Ecotoxicology and Environmental Safety9 citationsDOIOpen Access PDF

Abstract

Climate change and air pollution are major challenges facing the world today. Cold waves and air pollution significantly impact ischemic heart disease (IHD), but the extent of these effects at different altitudes remains unclear, especially their interactions. We collected daily meteorological, pollutant, and IHD hospitalization data from Xining and Xinxiang from 2016 to 2021. Using a time-stratified case-crossover approach, we fitted conditional Poisson regression models to assess the association between cold waves, PM 2.5 , and IHD hospitalizations and quantified their interactions. Additionally, we calculated the attributable fraction (AF) and attributable number (AN) of hospitalizations due to exposure to cold waves and medium to high-level PM 2.5 . We also performed stratified analyses by altitude, gender, and age. Both cold waves and PM 2.5 were positively associated with IHD hospitalization rates in Xining and Xinxiang, but the differences between the two regions were not significant. The relative risk of cold waves was 1.15 (1.07, 1.24) in Xining and 1.16 (1.11, 1.21) in Xinxiang. In Xining, there was an interaction between cold waves and different levels of PM 2.5 . We estimated the attributable fraction due to the joint exposure of cold waves and PM 2.5 to be 0.14–0.49 in Xining and 0.26–0.36 in Xinxiang. Older adults and males faced higher risks. This study highlights the importance of reducing PM 2.5 exposure and optimizing extreme weather warning systems and suggests further exploration of the impacts of individual behaviors and regional characteristics on IHD. • Cold waves and PM 2.5 increased the risk of hospitalization for ischemic heart disease at different altitudes. • Interaction between cold waves and PM 2.5 at high altitudes. • Up to about 20 % of hospitalizations can be attributed to medium and high-level PM 2.5 and cold waves.

Topics & Concepts

ParticulatesEnvironmental sciencePoisson regressionAir pollutionPollutantAir pollutantsAtmospheric sciencesClimate changeClimatologyPollutionMeteorologyEnvironmental healthMedicineGeographyPopulationOceanographyGeologyEcologyBiologyClimate Change and Health ImpactsAir Quality and Health ImpactsGlobal Health Care Issues