Exposure to Fine Particulate Matter During Pregnancy Is Associated With Hippocampal Development in Offspring

IF 4 Q2 NEUROSCIENCES

Biological psychiatry global open science Pub Date : 2025-03-20 DOI:10.1016/j.bpsgos.2025.100490

Jessica L. Buthmann , Tarik Benmarhnia , Jonathan Y. Huang , Pei Huang , Jonas G. Miller , Jessica P. Uy , Peter D. Gluckman , Marielle V. Fortier , Yap-Seng Chong , Ai Peng Tan , Michael J. Meaney , Ian H. Gotlib

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Abstract

Background

As the global climate crisis persists, it becomes increasingly important to understand how exposure to environmental toxins can affect the developing brain. Although researchers are beginning to document links between prenatal exposure to air pollution and brain structure, it is not clear when these associations emerge.

Methods

We leveraged data from the GUSTO (Growing Up Toward Healthy Outcomes in Singapore) longitudinal birth cohort study to examine prenatal exposure to air pollution and brain development during childhood. Spatiotemporally interpolated prenatal exposure to particulate matter <2.5 μm was averaged across each prenatal week. Structural magnetic resonance imaging data were obtained when children were ages 4.5, 6.0, 7.5, and 10.5 years (N = 325, 47.7% female) and segmented with FreeSurfer 7.1. A subset of parents completed the Child Behavior Checklist at the final assessment (n = 195, 46.7% female). We used latent growth modeling to estimate a slope of hippocampal volume growth in each hemisphere from ages 4.5 to 10.5 years, adjusted for intracranial volume.

Results

Distributed lag models indicated that late gestational exposure (during weeks 36–40) was associated with slower hippocampal growth in both hemispheres. Importantly, we also found that faster hippocampal volume growth in the right hemisphere was associated with more externalizing and attention problems at 10.5 years.

Conclusions

Future research should examine mechanisms that may underlie or contribute to these associations. These findings underscore the importance of efforts to reduce pollution, particularly for pregnant people and their children.

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怀孕期间接触细颗粒物与后代海马发育有关

随着全球气候危机的持续，了解暴露于环境毒素如何影响发育中的大脑变得越来越重要。尽管研究人员开始记录产前接触空气污染与大脑结构之间的联系，但尚不清楚这些联系是何时出现的。方法我们利用GUSTO（新加坡健康成长结果）纵向出生队列研究的数据来检查产前空气污染暴露与儿童时期大脑发育的关系。在每个产前周内，对时空插值的产前暴露于颗粒物质<；2.5 μm进行平均。在儿童4.5岁、6.0岁、7.5岁和10.5岁时（N = 325人，女性47.7%）获取结构磁共振成像数据，并使用FreeSurfer 7.1进行分割。一部分家长在最终评估时完成了儿童行为检查表（n = 195，其中46.7%为女性）。我们使用潜在生长模型来估计4.5岁至10.5岁之间海马体积增长的斜率，并根据颅内体积进行调整。结果分布式滞后模型显示，孕晚期暴露（第36-40周）与双脑海马生长减慢有关。重要的是，我们还发现，在10.5岁时，右半球海马体积的快速增长与更多的外化和注意力问题有关。结论：未来的研究应该检查这些关联的潜在或促成机制。这些发现强调了努力减少污染的重要性，特别是对孕妇和她们的孩子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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