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Heatwave characteristics complicate the association between PM2.5 components and schizophrenia hospitalizations in a changing climate: Leveraging of the individual residential environment

In the era characterized by global environmental and climatic changes, understanding the effects of PM2.5 components and heatwaves on schizophrenia (SCZ) is essential for implementing environmental interventions at the population level. However, research in this area remains limited, which highlight...

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Published in:Ecotoxicology and environmental safety 2024-02, Vol.271, p.115973-115973, Article 115973
Main Authors: Pan, Rubing, Song, Jian, Yi, Weizhuo, Liu, Jintao, Song, Rong, Li, Xuanxuan, Liu, Li, Yuan, Jiajun, Wei, Ning, Cheng, Jian, Huang, Yuee, Zhang, Xulai, Su, Hong
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Language:English
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Summary:In the era characterized by global environmental and climatic changes, understanding the effects of PM2.5 components and heatwaves on schizophrenia (SCZ) is essential for implementing environmental interventions at the population level. However, research in this area remains limited, which highlights the need for further research and effort. We aim to assess the association between exposure to PM2.5 components and hospitalizations for SCZ under different heatwave characteristics. We conducted a 16 municipalities-wide, individual exposure-based, time-stratified, case-crossover study from January 1, 2017, to December 31, 2020, encompassing 160736 hospitalizations in Anhui Province, China. Daily concentrations of PM2.5 components were obtained from the Tracking Air Pollution in China dataset. Conditional logistic regression models were used to investigate the association between PM2.5 components and hospitalizations. Additionally, restricted cubic spline models were used to identify protective thresholds of residential environment in response to environmental and climate change. Our findings indicate a positive correlation between PM2.5 and its components and hospitalizations. Significantly, a 1 μg/m3 increase in black carbon (BC) was associated with the highest risk, at 1.58% (95%CI: 0.95–2.25). Exposure to heatwaves synergistically enhanced the impact of PM2.5 components on hospitalization risks, and the interaction varied with the intensity and duration of heatwaves. Under the 99th percentile heatwave events, the impact of PM2.5 and its components on hospitalizations was most pronounced, which were PM2.5 (2–4d: 4.59%, 5.09%, and 5.09%), sulfate (2–4d: 21.73%, 23.23%, and 25.25%), nitrate (2–4d: 17.51%, 16.93%, and 20.31%), ammonium (2–4d: 27.49%, 31.03%, and 32.41%), organic matter (2–4d: 32.07%, 25.42%, and 24.48%), and BC (2–4d: 259.36%, 288.21%, and 152.52%), respectively. Encouragingly, a protective effect was observed when green and blue spaces comprised more than 17.6% of the residential environment. PM2.5 components and heatwave exposure were positively associated with an increased risk of hospitalizations, although green and blue spaces provided a mitigating effect. [Display omitted] •PM2.5 components, especially BC, increase the risk of schizophrenia hospitalization.•Heatwave exposure exacerbated PM2.5-related risks, mitigated by green and blue spaces.•Findings endorse public health strategies for climate and air pollution.
ISSN:0147-6513
1090-2414
DOI:10.1016/j.ecoenv.2024.115973