孕期空气污染暴露与儿童肺功能：LUIS 研究。

IF 2.7 3区医学 Q1 PEDIATRICS

Pediatric Pulmonology Pub Date : 2024-12-01 Epub Date: 2024-07-09 DOI:10.1002/ppul.27169

Jakob Usemann, Rebeca Mozun, Claudia E Kuehni, Kees de Hoogh, Benjamin Flueckiger, Florian Singer, Marcel Zwahlen, Alexander Moeller, Philipp Latzin

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引用次数: 0

摘要

背景：众所周知，高浓度空气污染会对儿童肺功能造成不良影响。关于生命早期暴露于中度污染水平对儿童肺功能的影响，目前证据有限。我们在一项基于瑞士人口的研究中调查了孕期、婴儿期和学龄前暴露于中度空气污染与学龄期肺功能的关系：方法：将直径为 2.5 的颗粒物和二氧化氮（NO2）的精细时空模型估计值与居住地址历史联系起来。我们将不同时间窗口（整个孕期、孕期的第一、第二和第三季度、出生后第一年、学龄前）内的空气污染暴露与横截面测量的 1 秒用力呼气容积（FEV1）和用力肺活量（FVC）进行了比较，并使用线性回归模型对潜在的混杂因素进行了调整：我们共纳入了 2182 名 6-17 岁的儿童。产前接触空气污染与学龄期肺功能下降有关。在 12 岁儿童中，孕期 PM2.5 每增加 10 µg-m-3 ，FEV1 降低 55 mL（95% CI -84 至 -25 mL），FVC 降低 62 mL（95% CI -96 至 -28 mL）。这种关联与年龄有关，因为年龄越小关联越强，年龄越大关联越弱。出生后接触 PM2.5 与肺功能降低无关。二氧化氮暴露与肺功能没有关联：结论：子宫内肺部发育对空气污染暴露最敏感，因为即使在产前暴露于适量的PM2.5也会导致肺功能下降，这在年龄较小的儿童中最为突出。

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Air pollution exposure during pregnancy and lung function in childhood: The LUIS study.

Background: The adverse effects of high air pollution levels on childhood lung function are well-known. Limited evidence exists on the effects of moderate exposure levels during early life on childhood lung function. We investigated the association of exposure to moderate air pollution during pregnancy, infancy, and preschool time with lung function at school age in a Swiss population-based study.

Methods: Fine-scale spatiotemporal model estimates of particulate matter with a diameter <2.5 µm (PM_2.5) and nitrogen dioxide (NO₂) were linked with residential address histories. We compared air pollution exposures within different time windows (whole pregnancy, first, second, and third trimester of pregnancy, first year of life, preschool age) with forced expiratory volume in 1 s (FEV₁) and forced vital capacity (FVC) measured cross-sectionally using linear regression models adjusted for potential confounders.

Results: We included 2182 children, ages 6-17 years. Prenatal air pollution exposure was associated with reduced lung function at school age. In children aged 12 years, per 10 µg·m^-3 increase in PM_2.5 during pregnancy, FEV₁ was 55 mL lower (95% CI -84 to -25 mL) and FVC 62 mL lower (95% CI -96 to -28 mL). Associations were age-dependent since they were stronger in younger and weaker in older children. PM_2.5 exposure after birth was not associated with reduced lung function. There was no association between NO₂ exposure and lung function.

Conclusion: In utero lung development is most sensitive to air pollution exposure, since even modest PM_2.5 exposure during the prenatal time was associated with reduced lung function, most prominent in younger children.

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来源期刊

Pediatric Pulmonology 医学-呼吸系统

CiteScore

6.00

自引率

12.90%

发文量

468

审稿时长

3-8 weeks

期刊介绍： Pediatric Pulmonology (PPUL) is the foremost global journal studying the respiratory system in disease and in health as it develops from intrauterine life though adolescence to adulthood. Combining explicit and informative analysis of clinical as well as basic scientific research, PPUL provides a look at the many facets of respiratory system disorders in infants and children, ranging from pathological anatomy, developmental issues, and pathophysiology to infectious disease, asthma, cystic fibrosis, and airborne toxins. Focused attention is given to the reporting of diagnostic and therapeutic methods for neonates, preschool children, and adolescents, the enduring effects of childhood respiratory diseases, and newly described infectious diseases. PPUL concentrates on subject matters of crucial interest to specialists preparing for the Pediatric Subspecialty Examinations in the United States and other countries. With its attentive coverage and extensive clinical data, this journal is a principle source for pediatricians in practice and in training and a must have for all pediatric pulmonologists.