Fine-Grained Topography and Modularity of the Macaque Frontal Pole Cortex Revealed by Anatomical Connectivity Profiles

被引:0
|
作者
Bin He [1 ,2 ,3 ]
Long Cao [2 ,4 ]
Xiaoluan Xia [2 ,5 ]
Baogui Zhang [2 ,3 ]
Dan Zhang [6 ]
Bo You [1 ]
Lingzhong Fan [2 ,3 ,7 ,8 ]
Tianzi Jiang [2 ,3 ,7 ,4 ,9 ,8 ,10 ]
机构
[1] Chinese Institute for Brain Research
[2] School of Mechanical and Power Engineering,Harbin University of Science and Technology
[3] Brainnetome Center,Institute of Automation,Chinese Academy of Sciences
[4] National Laboratory of Pattern Recognition,Institute of Automation,Chinese Academy of Sciences (CAS)
[5] Key Laboratory for NeuroInformation of the Ministry of Education,School of Life Science and Technology,University of Electronic Science and Technology of China
[6] College of Information and Computer,Taiyuan University of Technology
[7] Core Facility,Center of Biomedical Analysis,Tsinghua University
[8] Center for Excellence in Brain Science and Intelligence Technology,Institute of Automation,CAS
[9] University of CAS
[10] The Queensland Brain Institute,University of Queensland
来源
Neuroscience Bulletin | 2020年 / 36卷 / 12期
基金
中国国家自然科学基金; 国家重点研发计划;
关键词
D O I
暂无
中图分类号
Q954.52 [神经系统];
学科分类号
071006 ;
摘要
The frontal pole cortex(FPC) plays key roles in various higher-order functions and is highly developed in non-human primates.An essential missing piece of information is the detailed anatomical connections for finer parcellation of the macaque FPC than provided by the previous tracer results.This is important for understanding the functional architecture of the cerebral cortex.Here,combining cross-validation and principal component analysis,we formed a tractography-based parcellation scheme that applied a machine learning algorithm to divide the macaque FPC(2 males and 6 females) into eight subareas using high-resolution diffusion magnetic resonance imaging with the 9.4 T Bruker system,and then revealed their subregional connections.Furthermore,we applied improved hierarchical clustering to the obtained parcels to probe the modular structure of the subregions,and found that the dorsolateral FPC,which contains an extension to the medial FPC,was mainly connected to regions of the default-mode network.The ventral FPC was mainly involved in the social-interaction network and the dorsal FPC in the metacognitive network.These results enhance our understanding of the anatomy and circuitry of the macaque brain,and contribute to FPC-related clinical research.
引用
收藏
页码:1454 / 1473
页数:20
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  • [1] Fine-Grained Topography and Modularity of the Macaque Frontal Pole Cortex Revealed by Anatomical Connectivity Profiles
    He, Bin
    Cao, Long
    Xia, Xiaoluan
    Zhang, Baogui
    Zhang, Dan
    You, Bo
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    [J]. NEUROSCIENCE BULLETIN, 2020, 36 (12) : 1454 - 1473
  • [2] Fine-Grained Topography and Modularity of the Macaque Frontal Pole Cortex Revealed by Anatomical Connectivity Profiles
    Bin He
    Long Cao
    Xiaoluan Xia
    Baogui Zhang
    Dan Zhang
    Bo You
    Lingzhong Fan
    Tianzi Jiang
    [J]. Neuroscience Bulletin, 2020, 36 : 1454 - 1473
  • [3] Parcellation of Macaque Cortex with Anatomical Connectivity Profiles
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  • [5] Fine-grained tonotopic architecture is retrieved from resting state connectivity in the auditory cortex
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