Altered brain structural and functional connectivity in schizotypy

Schizotypy refers to schizophrenia-like traits below the clinical threshold in the general population. The pathological development of schizophrenia has been postulated to evolve from the initial coexistence of 'brain disconnection' and 'brain connectivity compensation' to '...

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Bibliographic Details
Published in:Psychological medicine 2022-04, Vol.52 (5), p.834-843
Main Authors: Wang, Yong-ming, Cai, Xin-lu, Zhang, Rui-ting, Zhang, Yi-jing, Zhou, Han-yu, Wang, Yi, Wang, Ya, Huang, Jia, Wang, Yan-yu, Cheung, Eric F. C., Chan, Raymond C. K.
Format: Article
Language:English
Subjects:
Brain
Brain Mapping
Coexistence
Compensation
Diffusion Tensor Imaging
Disconnection
Functional connectivity
Functional magnetic resonance imaging
Humans
Investigations
Magnetic Resonance Imaging
Mental disorders
Neural networks
Neurobiology
Neuroimaging
Original Article
Population
Psychosis
Questionnaires
Resting
Schizophrenia
Schizotypal personality
Schizotypal Personality Disorder
Sensorimotor system
Structure-function relationships
Substantia alba
Variability
White Matter
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Summary:Schizotypy refers to schizophrenia-like traits below the clinical threshold in the general population. The pathological development of schizophrenia has been postulated to evolve from the initial coexistence of 'brain disconnection' and 'brain connectivity compensation' to 'brain connectivity decompensation'. In this study, we examined the brain connectivity changes associated with schizotypy by combining brain white matter structural connectivity, static and dynamic functional connectivity analysis of diffusion tensor imaging data and resting-state functional magnetic resonance imaging data. A total of 87 participants with a high level of schizotypal traits and 122 control participants completed the experiment. Group differences in whole-brain white matter structural connectivity probability, static mean functional connectivity strength, dynamic functional connectivity variability and stability among 264 brain sub-regions of interests were investigated. We found that individuals with high schizotypy exhibited increased structural connectivity probability within the task control network and within the default mode network; increased variability and decreased stability of functional connectivity within the default mode network and between the auditory network and the subcortical network; and decreased static mean functional connectivity strength mainly associated with the sensorimotor network, the default mode network and the task control network. These findings highlight the specific changes in brain connectivity associated with schizotypy and indicate that both decompensatory and compensatory changes in structural connectivity within the default mode network and the task control network in the context of whole-brain functional disconnection may be an important neurobiological correlate in individuals with high schizotypy.
ISSN:0033-2917
1469-8978
DOI:10.1017/S0033291720002445