母亲暴露于空气污染与婴儿肺功能之间的关联受氧化应激遗传倾向的影响。

Association of Maternal Air Pollution Exposure and Infant Lung Function Is Modified by Genetic Propensity to Oxidative Stress.

作者信息

Vilcins Dwan, Lee Wen Ray, Pham Cindy, Tanner Sam, Knibbs Luke D, Burgner David, Blake Tamara L, Mansell Toby, Ponsonby Anne-Louise, Sly Peter D

机构信息

Child Health Research Centre, The University of Queensland, South Brisbane, QLD 4101, Australia.

Murdoch Children's Research Institute, Royal Children's Hospital, Parkville, VIC 3052, Australia.

出版信息

Children (Basel). 2024 Jul 31;11(8):937. doi: 10.3390/children11080937.

DOI:10.3390/children11080937

PMID:39201872

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11352943/

Abstract

BACKGROUND AND OBJECTIVE

The association between air pollution and poor respiratory health outcomes is well established. Children are particularly at risk from air pollution, especially during the prenatal period as their organs and systems are still undergoing crucial development. This study investigated maternal exposure to air pollution during pregnancy and oxidative stress (OS), inflammation, and infant lung function at 4 weeks of age.

METHODS

Data from the Barwon Infant Study were available for 314 infants. The exposure to NO and PM were estimated. Infant lung function (4 weeks) was measured by multiple-breath washout. Glycoprotein acetyls (GlycA) (36 weeks prenatal), cord blood, and OS biomarkers were measured in maternal urine (28 weeks). A genetic pathway score for OS (gPFSox) was calculated. Linear regression was used and potential modification by the OS genotype was tested.

RESULTS

There was no relationship between maternal exposure to air pollution and infant lung function, or with GlycA or OS during pregnancy. We found an association in children with a genetic propensity to OS between NO and a lower functional residual capacity (FRC) (β = -5.3 mls, 95% CI (-9.3, -1.3), = 0.01) and lung clearance index (LCI) score (β = 0.46 turnovers, (95% CI 0.10, 0.82), = 0.01).

CONCLUSION

High prenatal exposure to ambient NO is associated with a lower FRC and a higher LCI score in infants with a genetic propensity to oxidative stress. There was no relationship between maternal exposure to air pollution with maternal and cord blood inflammation or OS biomarkers.

摘要

背景与目的

空气污染与不良呼吸健康结局之间的关联已得到充分证实。儿童尤其容易受到空气污染的影响，特别是在产前阶段，因为他们的器官和系统仍在经历关键发育过程。本研究调查了孕期母亲暴露于空气污染与氧化应激（OS）、炎症以及婴儿4周龄时的肺功能之间的关系。

方法

巴旺婴儿研究中有314名婴儿的数据可用。估计了二氧化氮（NO）和颗粒物（PM）的暴露情况。通过多次呼吸冲洗法测量婴儿4周龄时的肺功能。在母亲尿液中（孕28周）测量糖蛋白乙酰化物（GlycA）（产前36周）、脐血和OS生物标志物。计算了OS的遗传途径评分（gPFSox）。使用线性回归并测试了OS基因型的潜在修饰作用。

结果

母亲暴露于空气污染与婴儿肺功能之间，或与孕期的GlycA或OS之间均无关联。我们发现，在具有OS遗传倾向的儿童中，NO与较低的功能残气量（FRC）（β = -5.3毫升，95%可信区间（-9.3，-1.3），P = 0.01）和肺清除指数（LCI）评分（β = 0.46次周转，（95%可信区间0.10，0.82），P = 0.01）之间存在关联。

结论

产前高暴露于环境NO与具有氧化应激遗传倾向的婴儿较低的FRC和较高的LCI评分相关。母亲暴露于空气污染与母亲和脐血炎症或OS生物标志物之间无关联。

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