Approaches to Capture Variance Differences in Rest fMRI Networks in the Spatial Geometric Features: Application to Schizophrenia

Identification of functionally connected regions while at rest has been at the forefront of research focusing on understanding interactions between different brain regions. Studies have utilized a variety of approaches including seed based as well as data-driven approaches to identifying such networ...

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Published in:Frontiers in neuroscience 2016-03, Vol.10, p.85-85
Main Authors: Gopal, Shruti, Miller, Robyn L, Baum, Stefi A, Calhoun, Vince D
Format: Article
Language:English
Subjects:
Brain
Brain mapping
Cognitive ability
Functional magnetic resonance imaging
Geometric features
IVA
Mental disorders
Multivariate analysis
Neuroscience
Psychiatry
resting state fMRI
Schizophrenia
spatial variability
Statistical analysis
Studies
Temporal gyrus
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description Identification of functionally connected regions while at rest has been at the forefront of research focusing on understanding interactions between different brain regions. Studies have utilized a variety of approaches including seed based as well as data-driven approaches to identifying such networks. Most such techniques involve differentiating groups based on group mean measures. There has been little work focused on differences in spatial characteristics of resting fMRI data. We present a method to identify between group differences in the variability in the cluster characteristics of network regions within components estimated via independent vector analysis (IVA). IVA is a blind source separation approach shown to perform well in capturing individual subject variability within a group model. We evaluate performance of the approach using simulations and then apply to a relatively large schizophrenia data set (82 schizophrenia patients and 89 healthy controls). We postulate, that group differences in the intra-network distributional characteristics of resting state network voxel intensities might indirectly capture important distinctions between the brain function of healthy and clinical populations. Results demonstrate that specific areas of the brain, superior, and middle temporal gyrus that are involved in language and recognition of emotions, show greater component level variance in amplitude weights for schizophrenia patients than healthy controls. Statistically significant correlation between component level spatial variance and component volume was observed in 19 of the 27 non-artifactual components implying an evident relationship between the two parameters. Additionally, the greater spread in the distance of the cluster peak of a component from the centroid in schizophrenia patients compared to healthy controls was observed for seven components. These results indicate that there is hidden potential in exploring variance and possibly higher-order measures in resting state networks to better understand diseases such as schizophrenia. It furthers comprehension of how spatial characteristics can highlight previously unexplored differences between populations such as schizophrenia patients and healthy controls.
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subjects Brain
Brain mapping
Cognitive ability
Functional magnetic resonance imaging
Geometric features
IVA
Mental disorders
Multivariate analysis
Neuroscience
Psychiatry
resting state fMRI
Schizophrenia
spatial variability
Statistical analysis
Studies
Temporal gyrus
title Approaches to Capture Variance Differences in Rest fMRI Networks in the Spatial Geometric Features: Application to Schizophrenia
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