Imaging-based parcellations of the human brain

被引:0
作者
Simon B. Eickhoff
B. T. Thomas Yeo
Sarah Genon
机构
[1] Research Centre Jülich,Institute of Neuroscience and Medicine, Brain and Behavior (INM
[2] Heinrich-Heine-University Düsseldorf,7)
[3] National University of Singapore,Institute of Systems Neuroscience, Medical Faculty
[4] National University of Singapore,Department of Electrical and Computer Engineering, ASTAR
[5] Harvard Medical School,NUS Clinical Imaging Research Centre, Singapore Institute for Neurotechnology and Memory Networks Program
[6] Duke-NUS Graduate Medical School,NUS Graduate School for Integrative Sciences and Engineering
来源
Nature Reviews Neuroscience | 2018年 / 19卷
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摘要
A defining aspect of brain organization is its spatial heterogeneity, which gives rise to multiple topographies at different scales. Brain parcellation — defining distinct partitions in the brain, be they areas or networks that comprise multiple discontinuous but closely interacting regions — is thus fundamental for understanding brain organization and function. The past decade has seen an explosion of in vivo MRI-based approaches to identify and parcellate the brain on the basis of a wealth of different features, ranging from local properties of brain tissue to long-range connectivity patterns, in addition to structural and functional markers. Given the high diversity of these various approaches, assessing the convergence and divergence among these ensuing maps is a challenge. Inter-individual variability adds to this challenge but also provides new opportunities when coupled with cross-species and developmental parcellation studies.
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页码:672 / 686
页数:14
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共 318 条
[1]  
Tononi G(1994)A measure for brain complexity: relating functional segregation and integration in the nervous system Proc. Natl Acad. Sci. 91 5033-5037
[2]  
Sporns O(2012)Distributed processing; distributed functions? NeuroImage 61 407-426
[3]  
Edelman GM(2018)The relationship between spatial configuration and functional connectivity of brain regions eLife 7 701-712
[4]  
Fox PT(2018)How interindividual differences in brain anatomy shape reading accuracy Brain Struct. Function 223 343-352
[5]  
Friston KJ(2018)Spatial topography of individual-specific cortical networks predicts human cognition, personality and emotion Cereb. Cortex 210 655-669
[6]  
Bijsterbosch JD(2005)Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps Anat. Embryol. 15 396-408
[7]  
Cachia A(2014)Functional organization of the hippocampal longitudinal axis Nat. Rev. Neurosci. 50 741-347
[8]  
Kong R(2010)Anatomical and functional parcellation of the human lateral premotor cortex NeuroImage 242 332-47
[9]  
Amunts K(1988)Perspectives on cognitive neuroscience Science 170 1-1107
[10]  
Strange BA(2017)Topographic organization of the cerebral cortex and brain cartography NeuroImage 1 1086-506
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