Cerebellar-cortical dysconnectivity in resting-state associated with sensorimotor tasks in schizophrenia

Kim, Dae-Jin; Moussa-Tooks, Alexandra B; Bolbecker, Amanda R; Apthorp, Deborah; Newman, Sharlene D; O'Donnell, Brian F; Hetrick, William P

doi:10.1002/hbm.25002

Author(s)

Kim, Dae-Jin

Moussa-Tooks, Alexandra B

Bolbecker, Amanda R

Apthorp, Deborah

Newman, Sharlene D

O'Donnell, Brian F

Hetrick, William P

Publication Date

2020-08-01

Abstract

Abnormalities of cerebellar function have been implicated in the pathophysiology of schizophrenia. Since the cerebellum has afferent and efferent projections to diverse brain regions, abnormalities in cerebellar lobules could affect functional connectivity with multiple functional systems in the brain. Prior studies, however, have not examined the relationship of individual cerebellar lobules with motor and nonmotor resting-state functional networks. We evaluated these relationships using resting-state fMRI in 30 patients with a schizophrenia-spectrum disorder and 37 healthy comparison participants. For connectivity analyses, the cerebellum was parcellated into 18 lobular and vermal regions, and functional connectivity of each lobule to 10 major functional networks in the cerebrum was evaluated. The relationship between functional connectivity measures and behavioral performance on sensorimotor tasks (i.e., finger-tapping and postural sway) was also examined. We found cerebellar-cortical hyperconnectivity in schizophrenia, which was predominantly associated with Crus I, Crus II, lobule IX, and lobule X. Specifically, abnormal cerebellar connectivity was found to the cerebral ventral attention, motor, and auditory networks. This cerebellar-cortical connectivity in the resting-state was differentially associated with sensorimotor task-based behavioral measures in schizophrenia and healthy comparison participants-that is, dissociation with motor network and association with nonmotor network in schizophrenia. These findings suggest that functional association between individual cerebellar lobules and the ventral attentional, motor, and auditory networks is particularly affected in schizophrenia. They are also consistent with dysconnectivity models of schizophrenia suggesting cerebellar contributions to a broad range of sensorimotor and cognitive operations.

Citation

Human Brain Mapping, 41(11), p. 3119-3132

ISSN

1097-0193

1065-9471

Pubmed ID

32250008

Link

https://hdl.handle.net/1959.11/29683

Language

en

Publisher

John Wiley & Sons, Inc

Rights

Attribution 4.0 International

Title

Cerebellar-cortical dysconnectivity in resting-state associated with sensorimotor tasks in schizophrenia

Type of document

Journal Article

Entity Type

Publication

Name	Size	format	Description	Link
administrative/CerebellarApthorp2020JournalArticleEarlyOnline.pdf	2787.023 KB	application/pdf	Early online version	View document
openpublished/CerebellarApthorp2020JournalArticle.pdf	2787.087 KB	application/pdf	Published version	View document

Author(s)	Kim, Dae-Jin Moussa-Tooks, Alexandra B Bolbecker, Amanda R Apthorp, Deborah Newman, Sharlene D O'Donnell, Brian F Hetrick, William P
Publication Date	2020-08-01
Abstract	Abnormalities of cerebellar function have been implicated in the pathophysiology of schizophrenia. Since the cerebellum has afferent and efferent projections to diverse brain regions, abnormalities in cerebellar lobules could affect functional connectivity with multiple functional systems in the brain. Prior studies, however, have not examined the relationship of individual cerebellar lobules with motor and nonmotor resting-state functional networks. We evaluated these relationships using resting-state fMRI in 30 patients with a schizophrenia-spectrum disorder and 37 healthy comparison participants. For connectivity analyses, the cerebellum was parcellated into 18 lobular and vermal regions, and functional connectivity of each lobule to 10 major functional networks in the cerebrum was evaluated. The relationship between functional connectivity measures and behavioral performance on sensorimotor tasks (i.e., finger-tapping and postural sway) was also examined. We found cerebellar-cortical hyperconnectivity in schizophrenia, which was predominantly associated with Crus I, Crus II, lobule IX, and lobule X. Specifically, abnormal cerebellar connectivity was found to the cerebral ventral attention, motor, and auditory networks. This cerebellar-cortical connectivity in the resting-state was differentially associated with sensorimotor task-based behavioral measures in schizophrenia and healthy comparison participants-that is, dissociation with motor network and association with nonmotor network in schizophrenia. These findings suggest that functional association between individual cerebellar lobules and the ventral attentional, motor, and auditory networks is particularly affected in schizophrenia. They are also consistent with dysconnectivity models of schizophrenia suggesting cerebellar contributions to a broad range of sensorimotor and cognitive operations.
Citation	Human Brain Mapping, 41(11), p. 3119-3132
ISSN	1097-0193 1065-9471
Pubmed ID	32250008
Link	https://hdl.handle.net/1959.11/29683
Language	en
Publisher	John Wiley & Sons, Inc
Rights	Attribution 4.0 International
Title	Cerebellar-cortical dysconnectivity in resting-state associated with sensorimotor tasks in schizophrenia
Type of document	Journal Article
Entity Type	Publication

Cerebellar-cortical dysconnectivity in resting-state associated with sensorimotor tasks in schizophrenia

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