Fetal MRI study of brain differences in early-onset fetal growth restriction versus healthy controls at 30 weeks of gestation

IF 1.7 Q3 OBSTETRICS & GYNECOLOGY

European Journal of Obstetrics and Gynecology and Reproductive Biology: X Pub Date : 2025-07-03 DOI:10.1016/j.eurox.2025.100417

Lotte Meijerink , Inge van Ooijen , Fieke Terstappen , Thomas Alderliesten , Rutger A.J. Nievelstein , Femke Lammertink , Manon Benders , Mireille Bekker

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Abstract

Objective

To identify volumetric and diffusion-related brain differences expressed as apparent diffusion coefficient (ADC) values between early-onset brain-sparing fetal growth restriction (FGR) and healthy controls using magnetic resonance imaging (MRI) at 30 weeks of gestation.

Method

This prospective, observational, monocenter cohort study included singleton pregnancies with early-onset brain-sparing FGR at the University Medical Center Utrecht. FGR fetuses were compared to healthy controls from the Utrecht YOUth Cohort. Fetal MRI of the brain was performed including T2-weighted and diffusion weighted imaging (DWI) sequences. We measured 2D biometrics, 3D volumetrics using BOUNTI, and ADC values in multiple brain and placental regions. Values were corrected to 30 weeks of gestation.

Results

The study included 26 FGR fetuses at gestational age (GA) 26.3–32 weeks and 71 controls at GA 30.1–34 weeks. At 30 weeks, total brain volume (TBV) was significantly smaller in FGR (144.2 ± 11.5 vs 166.9 ± 17.5 milliliters, p < 0.001). After dividing all absolute volumes by TBV, only cerebellar volume remained significantly reduced (0.045 [0.00] vs 0.048 [0.01], p = 0.006). ADC values were lower in all brain regions except the cerebellum. Placental ADC values were also significantly lower in FGR.

Conclusion

Altered brain development in brain-sparing FGR is already present at 30 weeks of gestation. Lower brain volumes and ADC values may reflect the effects of altered perfusion, chronic hypoxia and microstructural changes in the brains of FGR fetuses. Future studies linking these MRI findings to long-term neurodevelopmental outcomes will aid in more personalized prognoses and might also inform the timing of delivery, ultimately enhancing clinical decision-making.

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妊娠30周时早发性胎儿生长受限与健康对照组脑差异的胎儿MRI研究

目的利用磁共振成像（MRI）技术，探讨孕30周早期脑保留胎儿生长受限（FGR）与健康对照组脑容量和弥散相关差异（ADC值）。方法这项前瞻性、观察性、单中心队列研究纳入了乌得勒支大学医学中心早发性脑保留FGR的单胎妊娠。将FGR胎儿与来自乌得勒支青年队列的健康对照进行比较。胎儿脑MRI包括t2加权和弥散加权成像（DWI）序列。我们测量了2D生物特征，使用BOUNTI测量了3D体积，以及多个脑和胎盘区域的ADC值。数值修正为妊娠30周。结果本研究纳入26例胎龄26.3 ~ 32周的FGR胎儿和71例胎龄30.1 ~ 34周的对照组。在30周时，FGR的总脑容量（TBV）明显较小（144.2 ± 11.5 vs 166.9 ± 17.5毫升，p <； 0.001）。将所有绝对容积除以TBV后，只有小脑容积仍显著减少（0.045 [0.00]vs 0.048 [0.01], p = 0.006）。ADC值在除小脑外的所有脑区均较低。FGR组胎盘ADC值也显著降低。结论保脑FGR在妊娠30周时已出现脑发育改变。较低的脑容量和ADC值可能反映了FGR胎儿大脑灌注改变、慢性缺氧和微结构改变的影响。未来的研究将这些MRI结果与长期神经发育结果联系起来，将有助于更个性化的预后，也可能为分娩时机提供信息，最终增强临床决策。

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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