大脑皮层和边缘区域的灰质结构与老年人的一般认知能力有关

IF 1.7 Q3 CLINICAL NEUROLOGY Aging brain Pub Date : 2023-12-07 DOI:10.1016/j.nbas.2023.100103
Ylva Köhncke , Simone Kühn , Sandra Düzel , Myriam C. Sander , Andreas M. Brandmaier , Ulman Lindenberger
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引用次数: 0

摘要

根据维持假说(Nyberg 等人,2012 年),大脑灰质结构的完整性有助于将认知功能维持到老年。这一假说的一个推论可以在横截面数据中得到验证,即灰质结构的完整性与老年期的一般认知能力呈正相关。Köhncke 等人(2021 年)发现灰质完整性的特定区域潜在因素与老年人的记忆能力呈正相关,在此基础上,我们对 1466 名年龄在 60-88 岁之间的参与者(其中 319 人提供了成像数据)进行横截面抽样调查,研究灰质完整性的一般因素与认知能力的一般因素之间的关联。基于 T1 加权图像(基于体素的形态计量学,VBM)、磁化转移成像(MT)和扩散张量成像衍生的平均扩散率(MD)的指标变量有足够的共同方差部分,可以为一组全面的感兴趣区(ROI)建立灰质结构的潜在因子。灰质因子的个体差异在新皮层和边缘区域之间呈正相关,因此可以分别定义新皮层和边缘 ROI 的二阶一般因子。这两个一般灰质因子都与一般认知能力呈正相关。对于基底神经节,三种模式特异性指标显示出不同的负荷模式,并且没有发现一般灰质因子与一般认知能力的可靠关联。为了对维持假说进行更直接的检验,我们建议将目前的结构建模方法应用于纵向数据,从而提高大脑结构潜在构造的生理有效性。
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Grey-matter structure in cortical and limbic regions correlates with general cognitive ability in old age

According to the maintenance hypothesis (Nyberg et al., 2012), structural integrity of the brain’s grey matter helps to preserve cognitive functioning into old age. A corollary of this hypothesis that can be tested in cross-sectional data is that grey-matter structural integrity and general cognitive ability are positively associated in old age. Building on Köhncke et al. (2021), who found that region-specific latent factors of grey-matter integrity are positively associated with episodic memory ability among older adults, we examine associations between general factors of grey-matter integrity and a general factor of cognitive ability in a cross-sectional sample of 1466 participants aged 60–88 years, 319 of whom contributed imaging data. Indicator variables based on T1-weighted images (voxel-based morphometry, VBM), magnetization-transfer imaging (MT), and diffusion tensor imaging-derived mean diffusivity (MD) had sufficient portions of variance in common to establish latent factors of grey-matter structure for a comprehensive set of regions of interest (ROI). Individual differences in grey-matter factors were positively correlated across neocortical and limbic areas, allowing for the definition of second-order, general factors for neocortical and limbic ROI, respectively. Both general grey-matter factors were positively correlated with general cognitive ability. For the basal ganglia, the three modality-specific indicators showed heterogenous loading patterns, and no reliable associations of the general grey-matter factor to general cognitive ability were found. To provide more direct tests of the maintenance hypothesis, we recommend applying the present structural modeling approach to longitudinal data, thereby enhancing the physiological validity of latent constructs of brain structure.

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