Brain tissue microstructural and free-water composition 13 years after very preterm birth

白质 灰质 磁共振弥散成像 大脑大小 妊娠期 自由水 大脑发育 医学 磁共振成像 生理学 怀孕 生物 神经科学 放射科 环境科学 环境工程 遗传学
作者
Claire E. Kelly,Thijs Dhollander,Ian H. Harding,Wasim Khan,Richard Beare,Jeanie L.Y. Cheong,Lex W. Doyle,Marc L. Seal,Deanne K. Thompson,Terrie E. Inder,Peter J. Anderson
出处
期刊:NeuroImage [Elsevier BV]
卷期号:254: 119168-119168 被引量:5
标识
DOI:10.1016/j.neuroimage.2022.119168
摘要

There have been many studies demonstrating children born very preterm exhibit brain white matter microstructural alterations, which have been related to neurodevelopmental difficulties. These prior studies have often been based on diffusion MRI modelling and analysis techniques, which commonly focussed on white matter microstructural properties in children born very preterm. However, there have been relatively fewer studies investigating the free-water content of the white matter, and also the microstructure and free-water content of the cortical grey matter, in children born very preterm. These biophysical properties of the brain change rapidly during fetal and neonatal brain development, and therefore such properties are likely also adversely affected by very preterm birth. In this study, we investigated the relationship of very preterm birth (<30 weeks' gestation) to both white matter and cortical grey matter microstructure and free-water content in childhood using advanced diffusion MRI analyses. A total of 130 very preterm participants and 45 full-term control participants underwent diffusion MRI at age 13 years. Diffusion tissue signal fractions derived by Single-Shell 3-Tissue Constrained Spherical Deconvolution were used to investigate brain tissue microstructural and free-water composition. The tissue microstructural and free-water composition metrics were analysed using a voxel-based analysis and cortical region-of-interest analysis approach. Very preterm 13-year-olds exhibited reduced white matter microstructural density and increased free-water content across widespread regions of the white matter compared with controls. Additionally, very preterm 13-year-olds exhibited reduced microstructural density and increased free-water content in specific temporal, frontal, occipital and cingulate cortical regions. These brain tissue composition alterations were strongly associated with cerebral white matter abnormalities identified in the neonatal period, and concurrent adverse cognitive and motor outcomes in very preterm children. The findings demonstrate brain microstructural and free-water alterations up to thirteen years from neonatal brain abnormalities in very preterm children that relate to adverse neurodevelopmental outcomes.

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