野火季节和其他时间段环境细颗粒物的短期增加与哮喘或慢性阻塞性肺病住院治疗的关系

CHEST pulmonary Pub Date : 2024-06-01 DOI:10.1016/j.chpulm.2024.100053

Benjamin D. Horne PhD, MStat, MPH , Mary M. Johnson MD, PhD , Denitza P. Blagev MD , Francois Haddad MD , Kirk U. Knowlton MD , Daniel Bride MS , Tami L. Bair BS , Elizabeth A. Joy MD, MPH , Kari C. Nadeau MD, PhD

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引用次数: 0

摘要

背景空气污染的短期增加与哮喘和慢性阻塞性肺病的不良后果有关。研究问题在野火季节和冬季反常季节，PM2.5 和臭氧的短期增加是否与哮喘和慢性阻塞性肺病的急诊或住院综合情况有关？研究设计和方法病例交叉分析评估了 1999 年 1 月至 2022 年 3 月期间因主要出院诊断为哮喘和慢性阻塞性肺病而住院的 63,976 名和 18,514 名患者。患者居住在犹他州的瓦萨奇前线，那里的 PM2.5 和臭氧由环境保护局的监测仪测量。结果在野火季节（OR，1.057 per +10 μg/m3；95% CI，1.019-1.097；P = .003）和冬季逆转（OR，1.023 per +10 μg/m3；95% CI，1.010-1.037；P = .0004）期间，PM2.5升高的同一天，哮喘风险也升高（OR，1.057 per +10 μg/m3；95% CI，1.019-1.097；P = .003）。风险在 1 周后下降，但在野火季节，风险在滞后 4 周后反弹（OR，1.098 per +10 μg/m3；95% CI，1.033-1.167）。在野火季节，成人在PM2.5升高后的头3天内患哮喘的风险最高，但对儿童来说，最高风险延迟了3至4周。PM2.5暴露与慢性阻塞性肺病的住院治疗关系不大。在一个大型城市人群中，野火季节PM2.5的短期增加与哮喘住院治疗有关，其效应大小大于反转季节PM2.5的效应大小。

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Association of Short-Term Increases in Ambient Fine Particulate Matter With Hospitalization for Asthma or COPD During Wildfire Season and Other Time Periods

Background

Short-term increases in air pollution are associated with poor asthma and COPD outcomes. Short-term elevations in fine particulate matter (PM_2.5) due to wildfire smoke are becoming more common.

Research Question

Are short-term increases in PM_2.5 and ozone in wildfire season and in winter inversion season associated with a composite of emergency or inpatient hospitalization for asthma and COPD?

Study Design and Methods

Case-crossover analyses evaluated 63,976 and 18,514 patients hospitalized for primary discharge diagnoses of asthma and COPD, respectively, between January 1999 and March 2022. Patients resided on Utah’s Wasatch Front where PM_2.5 and ozone were measured by Environmental Protection Agency-based monitors. ORs were calculated using Poisson regression adjusted for weather variables.

Results

Asthma risk increased on the same day that PM_2.5 increased during wildfire season (OR, 1.057 per +10 μg/m³; 95% CI, 1.019-1.097; P = .003) and winter inversions (OR, 1.023 per +10 μg/m³; 95% CI, 1.010-1.037; P = .0004). Risk decreased after 1 week, but during wildfire season risk rebounded at a 4-week lag (OR, 1.098 per +10 μg/m³; 95% CI, 1.033-1.167). Asthma risk for adults during wildfire season was highest in the first 3 days after PM_2.5 increases, but for children, the highest risk was delayed by 3 to 4 weeks. PM_2.5 exposure was weakly associated with COPD hospitalization. Ozone exposure was not associated with elevated risks.

Interpretation

In a large urban population, short-term increases in PM_2.5 during wildfire season were associated with asthma hospitalization, and the effect sizes were greater than for PM_2.5 during inversion season.

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CHEST pulmonary

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