年龄相关的白质束结构差异与儿童期到成年期的认知表现相关。

Age-related differences in white matter tract microstructure are associated with cognitive performance from childhood to adulthood.

机构信息

Division of Psychiatry Research (BDP, TI, PD, MJ, PRS, AKM), Zucker Hillside Hospital, Glen Oaks, New York; Center for Psychiatric Neuroscience (BDP, TI, PD, MJ, PRS, AKM), Feinstein Institute for Medical Research, Manhasset, New York.

出版信息

Biol Psychiatry. 2014 Feb 1;75(3):248-56. doi: 10.1016/j.biopsych.2013.05.020. Epub 2013 Jul 2.

DOI:10.1016/j.biopsych.2013.05.020

PMID:23830668

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4412928/

Abstract

BACKGROUND

Age-related differences in white matter tract microstructure have been well established across the life span. In the present cross-sectional study, we examined whether these differences are associated with neurocognitive performance from childhood to late adulthood.

METHODS

Diffusion tensor imaging was performed in 296 healthy subjects aged 8 to 68 years (mean = 29.6, SD = 14.6). The corpus callosum, two projection tracts, and five association tracts were traced using probabilistic tractography. A neurocognitive test battery was used to assess speed of processing, attention, spatial working memory, verbal functioning, visual learning, and executive functioning. Linear mediation models were used to examine whether differences in white matter tract fractional anisotropy (FA) were associated with neurocognitive performance, independent of the effect of age.

RESULTS

From childhood to early adulthood, higher FA of the cingulum bundle and inferior frontooccipital fasciculus (IFOF) was associated with higher executive functioning and global cognitive functioning, respectively, independent of the effect of age. When adjusting for speed of processing, FA of the IFOF was no longer associated with performance in the other cognitive domains with the exception of visual learning. From early adulthood to late adulthood, white matter tract FA was not associated with cognitive performance independent of the age effect.

CONCLUSIONS

The cingulum bundle may play a critical role in protracted maturation of executive functioning. The IFOF may play a key role in maturation of visual learning and may act as a central "hub" in global cognitive maturation by subserving maturation of processing speed.

摘要

背景

在整个生命周期中，与年龄相关的白质束微观结构差异已得到充分证实。在本横断面研究中，我们研究了这些差异是否与从儿童期到成年后期的神经认知表现有关。

方法

对 296 名年龄在 8 至 68 岁（平均年龄= 29.6，标准差= 14.6）的健康受试者进行弥散张量成像。使用概率追踪技术对胼胝体、两个投射束和五个联合束进行追踪。使用神经认知测试组合来评估处理速度、注意力、空间工作记忆、言语功能、视觉学习和执行功能。线性中介模型用于检查白质束各向异性分数（FA）的差异是否与神经认知表现有关，而不受年龄影响。

结果

从儿童期到成年早期，扣带束和下额枕束（IFOF）的 FA 较高与执行功能和整体认知功能较高相关，这与年龄无关。当调整处理速度时，IFOF 的 FA 与除视觉学习外的其他认知领域的表现不再相关。从成年早期到成年后期，白质束 FA 与认知表现无关，与年龄效应无关。

结论

扣带束可能在执行功能的长期成熟中起关键作用。IFOF 可能在视觉学习的成熟中起关键作用，并通过支持处理速度的成熟，充当整体认知成熟的中央“枢纽”。

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