# Early gestational weight gain and birth weight outcome: a Chinese population-based cohort

**Authors:** Shuang Zhang, Lingyan Feng, Weiqin Li, Nan Li, Leishen Wang, Jia Guo, Jinnan Liu, Junhong Leng, Peng Wang, Huikun Liu

PMC · DOI: 10.1038/s41390-025-04324-2 · Pediatric Research · 2025-08-19

## TL;DR

Early weight gain during pregnancy strongly affects baby birth weight in Chinese women, with different impacts based on the mother's BMI and the baby's sex.

## Contribution

This study reveals sex-specific and BMI-dependent effects of early gestational weight gain on birth weight outcomes in an Asian population.

## Key findings

- Early gestational weight gain has a stronger impact on birth weight than late weight gain.
- Female fetuses show higher risk of large for gestational age with excessive early weight gain in overweight/obese mothers.
- Insufficient early weight gain in underweight mothers is strongly linked to small for gestational age risk in female newborns.

## Abstract

Early gestational weight gain (E-GWG) plays a crucial role in fetal development. Its timing and sex-specific impacts have not been thoroughly investigated, especially in Asian populations.

In this retrospective cohort study, 66,291 mother-infant pairs from the Tianjin Women and Children’s Health Care System were analyzed. Linear and logistic regression models were applied to examine the association between E-GWG and birth weight outcomes across BMI groups. We also analyzed the effects of E-GWG on the birth weight of infants born to pregnant women carrying male and female fetuses, respectively.

E-GWG had a stronger impact on birth weight z-scores than late GWG (β 0.038 vs. 0.016, P < 0.001). In each BMI subgroup, E-GWG was positively correlated with the risk of LGA and negatively correlated with the risk of SGA (all P < 0.001). The lower the prepregnancy BMI, the more sensitive the birth weight outcomes were to the variation in E-GWG and full-term GWG. The equivalent increase of E-GWG has different effects on the birth weight of male or female newborns. A female newborn has a higher risk of LGA at birth than a male in the underweight, overweight, and obesity group (P < 0.05). Girls’ mothers with low pre-pregnancy weight combined with E-GWG less than 10.7 kg had a particularly high risk of SGA. Male newborns have a higher risk of SGA than females with the same insufficient E-GWG in the normal weight and overweight groups. When the E-GWG of mothers with obesity was less than 3.0 kg, the SGA risk was increased for both male (OR 1.764, 95% CI 1.003-3.104) and female newborns (OR 2.540, 95% CI 1.364-4.729) compared with E-GWG more than 8.0 kg.

Insufficient E-GWG of women with underweight highlights the risk of female SGA. Pregnant women with excessive E-GWG should be aware of the risk of LGA, especially those carrying female fetuses.

Early GWG showed stronger impacts on birth weight outcomes (LGA/SGA) than late GWG, with BMI/sex effects.Female fetuses showed higher LGA odds with excessive E-GWG in moms with overweight/obesity; insufficient E-GWG in moms with underweight strongly correlated with female-specific SGA vulnerability.Findings warrant BMI/sex-tailored GWG guidelines to optimize Asian perinatal health and reduce long-term metabolic risks.

Early GWG showed stronger impacts on birth weight outcomes (LGA/SGA) than late GWG, with BMI/sex effects.

Female fetuses showed higher LGA odds with excessive E-GWG in moms with overweight/obesity; insufficient E-GWG in moms with underweight strongly correlated with female-specific SGA vulnerability.

Findings warrant BMI/sex-tailored GWG guidelines to optimize Asian perinatal health and reduce long-term metabolic risks.

## Full-text entities

- **Diseases:** obesity (MESH:D009765), overweight (MESH:D050177), underweight (MESH:D013851), weight gain (MESH:D015430)
- **Chemicals:** E (MESH:D004540)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

3 references — full list in the complete paper: https://tomesphere.com/paper/PMC13021518/full.md

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Source: https://tomesphere.com/paper/PMC13021518