TY - JOUR
T1 - Functional connector hubs in the cerebellum
AU - Kawabata, Kazuya
AU - Bagarinao, Epifanio
AU - Watanabe, Hirohisa
AU - Maesawa, Satoshi
AU - Mori, Daisuke
AU - Hara, Kazuhiro
AU - Ohdake, Reiko
AU - Masuda, Michihito
AU - Ogura, Aya
AU - Kato, Toshiyasu
AU - Koyama, Shuji
AU - Katsuno, Masahisa
AU - Wakabayashi, Toshihiko
AU - Kuzuya, Masafumi
AU - Hoshiyama, Minoru
AU - Isoda, Haruo
AU - Naganawa, Shinji
AU - Ozaki, Norio
AU - Sobue, Gen
N1 - Publisher Copyright:
© 2022 The Author(s)
PY - 2022/8/15
Y1 - 2022/8/15
N2 - Accumulating evidence from anatomical and neuroimaging studies suggests that the cerebellum is engaged in a variety of motor and cognitive tasks. Given its various functions, a key question is whether the cerebellum also plays an important role in the brain's integrative functions. Here, we hypothesize the existence of connector regions, also known as connector hubs, where multiple resting state networks converged in the cerebellum. To verify this, we employed a recently developed voxel-level network measure called functional connectivity overlap ratio (FCOR), which could be used to quantify the spatial extent of a region's connection to several large-scale cortical networks. Using resting state functional MRI data from 101 healthy participants, cerebellar FCOR maps were constructed and used to identify the locations of connector hubs in the cerebellum. Results showed that a number of cerebellar regions exhibited strong connectivity with multiple functional networks, verifying our hypothesis. These highly connected regions were located in the posterior cerebellum, especially in lobules VI, VII, and IX, and mainly connected to the core neurocognitive networks such as default mode and executive control networks. Regions associated with the sensorimotor network were also localized in lobule V, VI, and VIII, albeit in small clusters. These cerebellar connector hubs may play an essential role in the processing of information across the core neurocognitive networks.
AB - Accumulating evidence from anatomical and neuroimaging studies suggests that the cerebellum is engaged in a variety of motor and cognitive tasks. Given its various functions, a key question is whether the cerebellum also plays an important role in the brain's integrative functions. Here, we hypothesize the existence of connector regions, also known as connector hubs, where multiple resting state networks converged in the cerebellum. To verify this, we employed a recently developed voxel-level network measure called functional connectivity overlap ratio (FCOR), which could be used to quantify the spatial extent of a region's connection to several large-scale cortical networks. Using resting state functional MRI data from 101 healthy participants, cerebellar FCOR maps were constructed and used to identify the locations of connector hubs in the cerebellum. Results showed that a number of cerebellar regions exhibited strong connectivity with multiple functional networks, verifying our hypothesis. These highly connected regions were located in the posterior cerebellum, especially in lobules VI, VII, and IX, and mainly connected to the core neurocognitive networks such as default mode and executive control networks. Regions associated with the sensorimotor network were also localized in lobule V, VI, and VIII, albeit in small clusters. These cerebellar connector hubs may play an essential role in the processing of information across the core neurocognitive networks.
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U2 - 10.1016/j.neuroimage.2022.119263
DO - 10.1016/j.neuroimage.2022.119263
M3 - Article
C2 - 35500805
AN - SCOPUS:85129959073
SN - 1053-8119
VL - 257
JO - NeuroImage
JF - NeuroImage
M1 - 119263
ER -