The association between timing in pregnancy of drought and excess rainfall, infant sex, and birthweight: Evidence from Nepal.

IF 3.3 Q2 ENVIRONMENTAL SCIENCES

Environmental Epidemiology Pub Date : 2023-08-24 eCollection Date: 2023-10-01 DOI:10.1097/EE9.0000000000000263

Nadia G Diamond-Smith, Adrienne Epstein, Marya G Zlatnik, Emily Treleaven

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Abstract

Background: Past research on the impact of climatic events, such as drought, on birth outcomes has primarily been focused in Africa, with less research in South Asia, including Nepal. Existing evidence has generally found that drought impacts birthweight and infant sex, with differences by trimester. Additionally, less research has looked at the impact of excess rain on birth outcomes or focused on the impact of rainfall extremes in the preconception period. Using data from a large demographic surveillance system in Nepal, combined with a novel measure of drought/excess rainfall, we explore the impact of these on birthweight by time in pregnancy.

Methods: Using survey data from the 2016 to 2019 Chitwan Valley Study in rural Nepal combined with data from Climate Hazards InfraRed Precipitation with Station, we explored the association between excess rainfall and drought and birthweight, looking at exposure in the preconception period, and by trimester of pregnancy. We also explore the impact of excess rainfall and drought on infant sex and delivery with a skilled birth attendant. We used multilevel regressions and explored for effect modification by maternal age.

Results: Drought in the first trimester is associated with lower birthweight (β = -82.9 g; 95% confidence interval [CI] = 164.7, -1.2) and drought in the preconception period with a high likelihood of having a male (odds ratio [OR] = 1.41; 95% CI = 1.01, 2.01). Excess rainfall in the first trimester is associated with high birthweight (β = 111.6 g; 95% CI = 20.5, 202.7) and higher odds of having a male (OR = 1.48; 95% CI = 1.02, 2.16), and in the third trimester with higher odds of low birth weight (OR = 2.50; 95% CI = 1.40, 4.45).

Conclusions: Increasing rainfall extremes will likely impact birth outcomes and could have implications for sex ratios at birth.

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干旱怀孕时间与降雨量过大、婴儿性别和出生体重之间的关系：来自尼泊尔的证据。

背景：过去关于干旱等气候事件对出生结果影响的研究主要集中在非洲，而在包括尼泊尔在内的南亚的研究较少。现有证据普遍发现，干旱会影响出生体重和婴儿性别，不同妊娠期会有所不同。此外，很少有研究关注过量降雨对出生结果的影响，也很少有研究集中在怀孕前极端降雨的影响上。利用尼泊尔一个大型人口监测系统的数据，结合一种新的干旱/过量降雨测量方法，我们探讨了这些数据在怀孕期间对出生体重的影响。方法：使用2016年至2019年尼泊尔农村Chitwan山谷研究的调查数据，结合气象站的气候危害红外降水数据，我们探讨了过量降雨与干旱和出生体重之间的关系，考察了孕前期和妊娠三个月的暴露情况。我们还探讨了过量降雨和干旱对婴儿性别和分娩的影响。我们使用了多水平回归，并探讨了母亲年龄对效果的影响。结果：妊娠早期的干旱与出生体重较低有关（β=-82.9 g；95%置信区间[CI]=164.7，-1.2）和孕前期干旱（比值比[OR]=1.41；95%置信区间=1.01，2.01）。孕早期降雨量过多与高出生体重有关（β=111.6 g；95%可信区间为20.5202.7）和更高的男性出生几率（OR=1.48；95%置信区间为1.022.16），以及在妊娠晚期，低出生体重的几率更高（OR=2.50；95%可信区间=1.404.45）。结论：极端降雨量的增加可能会影响出生结果，并可能对出生时的性别比产生影响。

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