短表面白质与衰老:一项1293名受试者和2711次的纵向多地点研究

IF 1.7 Q3 CLINICAL NEUROLOGY Aging brain Pub Date : 2023-01-01 DOI:10.1016/j.nbas.2023.100067
Kurt G. Schilling , Derek Archer , Fang-Cheng Yeh , Francois Rheault , Leon Y. Cai , Andrea Shafer , Susan M. Resnick , Timothy Hohman , Angela Jefferson , Adam W. Anderson , Hakmook Kang , Bennett A. Landman
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引用次数: 6

摘要

据估计,紧邻皮层下方的短缔合纤维可能占白质总体积的60%。然而,相对于大脑的长程联想、投射和连合纤维,这些研究还不够深入。这在很大程度上是因为扩散MRI纤维束成像的局限性,这是用于非侵入性研究白质连接的主要方法。受最近浅表白质(SWM)束描记术的解剖学考虑和方法改进的启发,我们旨在描述认知正常衰老中这些纤维系统的变化,这为深入了解与年龄相关的认知变化的生物学基础,以及更好地了解与年龄有关的病理学与健康衰老的区别。为此,我们使用了三个大型纵向和横截面数据集(N=1293名受试者,2711个疗程)来量化几个雨水管理系统的微观结构特征和长度/体积特征。我们发现,在整个大脑中,SWM的轴向、径向和平均扩散率与年龄呈正相关,而分数各向异性与年龄呈负相关。这些关联在额叶、颞叶和颞顶叶区域最为明显。此外,SWM体积和长度的测量值在整个大脑中以一种异质的方式随着年龄的增长而减少,脑周间和脑周内SWM的变化率不同,并且比经过充分研究的长程白质途径的变化率更低。这些特征及其随年龄的变化为表征正常衰老提供了背景,结合更大的关联途径和灰质微观结构特征,可以深入了解与衰老和认知相关的基本机制。
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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Short superficial white matter and aging: A longitudinal multi-site study of 1293 subjects and 2711 sessions

It is estimated that short association fibers running immediately beneath the cortex may make up as much as 60 % of the total white matter volume. However, these have been understudied relative to the long-range association, projection, and commissural fibers of the brain. This is largely because of limitations of diffusion MRI fiber tractography, which is the primary methodology used to non-invasively study the white matter connections. Inspired by recent anatomical considerations and methodological improvements in superficial white matter (SWM) tractography, we aim to characterize changes in these fiber systems in cognitively normal aging, which provide insight into the biological foundation of age-related cognitive changes, and a better understanding of how age-related pathology differs from healthy aging. To do this, we used three large, longitudinal and cross-sectional datasets (N = 1293 subjects, 2711 sessions) to quantify microstructural features and length/volume features of several SWM systems. We find that axial, radial, and mean diffusivities show positive associations with age, while fractional anisotropy has negative associations with age in SWM throughout the entire brain. These associations were most pronounced in the frontal, temporal, and temporoparietal regions. Moreover, measures of SWM volume and length decrease with age in a heterogenous manner across the brain, with different rates of change in inter-gyri and intra-gyri SWM, and at slower rates than well-studied long-range white matter pathways. These features, and their variations with age, provide the background for characterizing normal aging, and, in combination with larger association pathways and gray matter microstructural features, may provide insight into fundamental mechanisms associated with aging and cognition.

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Aging brain
Aging brain Neuroscience (General), Geriatrics and Gerontology
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