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A cross-modal, cross-species comparison of connectivity measures in the primate brain.灵长类大脑中连接性测量的跨模态、跨物种比较。
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Functional connectivity change across multiple cortical networks relates to episodic memory changes in aging.多个皮质网络间的功能连接变化与衰老过程中的情景记忆变化相关。
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Brain Events Underlying Episodic Memory Changes in Aging: A Longitudinal Investigation of Structural and Functional Connectivity.衰老过程中情景记忆变化背后的脑事件:结构和功能连接的纵向研究
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Functional Changes in the Language Network in Response to Increased Amyloid β Deposition in Cognitively Intact Older Adults.认知功能正常的老年人语言网络对淀粉样β沉积增加的功能变化
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Anatomical accuracy of brain connections derived from diffusion MRI tractography is inherently limited.源自扩散磁共振成像纤维束成像的脑连接解剖学准确性存在内在局限性。
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Differential longitudinal changes in cortical thickness, surface area and volume across the adult life span: regions of accelerating and decelerating change.成人寿命中皮质厚度、表面积和体积的差异纵向变化:加速和减速变化的区域。
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成年期全生命周期结构与功能连接变化之间的关系:一项纵向研究。

Relationship between structural and functional connectivity change across the adult lifespan: A longitudinal investigation.

作者信息

Fjell Anders M, Sneve Markus H, Grydeland Håkon, Storsve Andreas B, Amlien Inge K, Yendiki Anastasia, Walhovd Kristine B

机构信息

Center for Lifespan Changes in Brain and Cognition, Department of Psychology, University of Oslo, Norway, Pb. 1094 Blindern, Oslo, 0317, Norway.

Department of Physical Medicine and Rehabilitation, Unit of neuropsychology, Oslo University Hospital, Norway.

出版信息

Hum Brain Mapp. 2017 Jan;38(1):561-573. doi: 10.1002/hbm.23403. Epub 2016 Sep 22.

DOI:10.1002/hbm.23403
PMID:27654880
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5148650/
Abstract

Extensive efforts are devoted to understand the functional (FC) and structural connections (SC) of the brain. FC is usually measured by functional magnetic resonance imaging (fMRI), and conceptualized as degree of synchronicity in brain activity between different regions. SC is typically indexed by measures of white matter (WM) properties, for example, by diffusion weighted imaging (DWI). FC and SC are intrinsically related, in that coordination of activity across regions ultimately depends on fast and efficient transfer of information made possible by structural connections. Convergence between FC and SC has been shown for specific networks, especially the default mode network (DMN). However, it is not known to what degree FC is constrained by major WM tracts and whether FC and SC change together over time. Here, 120 participants (20-85 years) were tested at two time points, separated by 3.3 years. Resting-state fMRI was used to measure FC, and DWI to measure WM microstructure as an index of SC. TRACULA, part of FreeSurfer, was used for automated tractography of 18 major WM tracts. Cortical regions with tight structural couplings defined by tractography were only weakly related at the functional level. Certain regions of the DMN showed a modest relationship between change in FC and SC, but for the most part, the two measures changed independently. The main conclusions are that anatomical alignment of SC and FC seems restricted to specific networks and tracts, and that changes in SC and FC are not necessarily strongly correlated. Hum Brain Mapp 38:561-573, 2017. © 2016 Wiley Periodicals, Inc.

摘要

人们付出了巨大努力来了解大脑的功能连接(FC)和结构连接(SC)。FC通常通过功能磁共振成像(fMRI)来测量,并被概念化为不同区域之间大脑活动的同步程度。SC通常通过白质(WM)特性的测量来索引,例如通过扩散加权成像(DWI)。FC和SC在本质上是相关的,因为跨区域活动的协调最终取决于由结构连接实现的快速高效的信息传递。FC和SC在特定网络,尤其是默认模式网络(DMN)中已显示出趋同。然而,尚不清楚FC在多大程度上受到主要WM束的限制,以及FC和SC是否会随时间共同变化。在这里,120名参与者(20 - 85岁)在两个时间点接受测试,间隔3.3年。静息态fMRI用于测量FC,DWI用于测量WM微观结构作为SC的指标。FreeSurfer的一部分TRACULA用于18条主要WM束的自动纤维束成像。通过纤维束成像定义的具有紧密结构耦合的皮质区域在功能水平上仅具有微弱的相关性。DMN的某些区域在FC和SC的变化之间显示出适度的关系,但在大多数情况下,这两种测量是独立变化的。主要结论是,SC和FC的解剖学对齐似乎仅限于特定网络和束,并且SC和FC的变化不一定高度相关。《人类大脑图谱》38:561 - 573,2017年。© 2016威利期刊公司。