混合分析确定臭氧是儿童哮喘症状的驱动因素

The journal of allergy and clinical immunology. Global Pub Date : 2025-06-10 DOI:10.1016/j.jacig.2025.100513

Wenxin Lu PhD , Ellen A. Eisen DSc , Liza Lutzker MPH , Elizabeth Noth PhD , Tim Tyner MS , Fred Lurmann MS , S. Katharine Hammond PhD , Stephanie Holm MD, PhD , John R. Balmes MD

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引用次数: 0

摘要

环境空气污染物的自然分布往往是相关的。现有的研究发现，接触各种空气污染物与儿童患哮喘症状的风险增加有关。然而，大多数研究采用单一污染物模型，无法区分因果效应和与其他测量或未测量污染物的相关性。目的探讨空气污染物混合物与儿童哮喘症状的关系，并确定关键危险因素。方法儿童健康和空气污染研究在加利福尼亚弗雷斯诺招募了299名儿童，其中63名曾被诊断患有哮喘。我们评估了儿童12个月前暴露于8种环境空气污染物的情况，即空气动力学直径为2.5 μm的颗粒物、空气动力学直径为10 μm的颗粒物、氮氧化物、二氧化氮、臭氧、一氧化碳、元素碳和多环芳烃，以及约7岁和9岁时两次就诊的哮喘症状（喘息和咳嗽）。我们使用混合分析方法进行重复测量分析，包括主成分分析和基于分位数的g计算（q-gcomp）。结果8种大气污染物具有较强的相关性。在单一污染物模型中，暴露于臭氧与更高的咳嗽风险相关(优势比，1.39；95% ci, 1.06-1.82)。使用主成分分析和q-gcomp，暴露于氮氧化物、元素碳和臭氧对咳嗽和喘息的贡献相对较高。从单污染物模型、双污染物模型、主成分分析和基于分位数的负控制g计算中，臭氧与咳嗽之间的相关性始终是正的。结论臭氧在8种空气污染物中表现突出，可能是哮喘患儿持续咳嗽的驱动危险因素。

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Mixture analysis identifies ozone as driving factor for child asthma symptoms

Background

The natural distributions of ambient air pollutants are often correlated. Existing studies have found that exposures to various air pollutants are associated with elevated risks of asthma symptoms among children. However, most studies applied single-pollutant models, which cannot distinguish between causal effects and associations due to correlations with other measured or unmeasured pollutants.

Objective

We sought to investigate air pollutant mixtures and child asthma symptoms and identify key risk factors.

Methods

The Children’s Health and Air Pollution Study recruited 299 children in Fresno, California, 63 of whom had ever-diagnosed asthma. We assessed the children’s prior 12-month exposures to 8 ambient air pollutants, namely, particulate matter with aerodynamic diameter of 2.5 μm, particulate matter with aerodynamic diameter of 10 μm, nitrogen oxides, nitrogen dioxide, ozone, carbon monoxide, elemental carbon, and polycyclic aromatic hydrocarbons, and asthmatic symptoms (wheeze and cough) at 2 visits, at age approximately 7 and 9 years. We conducted repeated-measures analysis with mixture analysis methods, including principal-component analysis and quantile-based g-computation (q-gcomp).

Results

The 8 air pollutants exhibited strong intercorrelation. In single-pollutant models, exposure to ozone was associated with higher risk of cough (odds ratio, 1.39; 95% CI, 1.06-1.82). Using principal-component analysis and q-gcomp, exposures to nitrogen oxides, elemental carbon, and ozone had relatively high contributions to cough and wheeze. The association between ozone and cough was consistently positive from single-pollutant models, double-pollutant models, principal-component analysis, and quantile-based g-computation with negative control.