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. 2025 Jan 6;53(3):376-386.
doi: 10.1515/jpm-2024-0222. Print 2025 Mar 26.

Impact of high maternal body mass index on fetal cerebral cortical and cerebellar volumes

Emiko Takeoka  1   2 April A Carlson  1   3 Neel Madan  4 Afshin Azimirad  1   5 Taysir Mahmoud  1 Rie Kitano  1   6 Shizuko Akiyama  1   7 Hyuk Jin Yun  8 Richard Tucker  9 Kiho Im  8 Perrie O'Tierney-Ginn  1 Tomo Tarui  1   9   10
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Free article

Impact of high maternal body mass index on fetal cerebral cortical and cerebellar volumes

Emiko Takeoka et al. J Perinat Med. .
Free article

Abstract

Objectives: Maternal obesity increases a child's risk of neurodevelopmental impairment. However, little is known about the impact of maternal obesity on fetal brain development.

Methods: We prospectively recruited 20 healthy pregnant women across the range of pre-pregnancy or first-trimester body mass index (BMI) and performed fetal brain magnetic resonance imaging (MRI) of their healthy singleton fetuses. We examined correlations between early pregnancy maternal BMI and regional brain volume of living fetuses using volumetric MRI analysis.

Results: Of 20 fetuses, there were 8 males and 12 females (median gestational age at MRI acquisition was 24.3 weeks, range: 19.7-33.3 weeks, median maternal age was 33.3 years, range: 22.0-37.4 years). There were no significant differences in clinical demographics between overweight (OW, 25≤BMI<30)/obese (OB, BMI≥30 kg/m2) (n=12) and normal BMI (18.5≤BMI<25) (n=8) groups. Fetuses in the OW/OB group had significantly larger left cortical plate (p=0.0003), right cortical plate (p=0.0002), and whole cerebellum (p=0.049) compared to the normal BMI group. In the OW/OB BMI group, cortical plate volume was larger relative to other brain regions after 28 weeks.

Conclusions: This pilot study supports the concept that maternal obesity impacts fetal brain volume, detectable via MRI in living fetuses using quantitative analysis.

Keywords: MRI analysis; fetal brain MRI; fetal brain development and growth; maternal obesity.

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