The Neurodynamic Computational Model Reveals Abnormal Multistable Spatiotemporal Patterns and Mechanisms in Schizophrenia
May 10, 2025·
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0 min read
Chaoyue Ding
Lin Du
et al.

Abstract
In this study, we established a link between data-driven dynamic organizational modeling (including co-activation pattern and hidden Markov model) and theory-driven neurodynamic mechanistic modeling (Wilson-Cowan-type models) of brain based on the concept of attractors. First, we validated, through fMRI signals simulated by neurodynamic models containing multiple attractors, that the co-activation pattern approach is more effective than hidden Markov model in extracting system attractors from functional imaging data. We found that, compared to normal controls, schizophrenia patients exhibited a significantly reduced match between individual- and group-level attractors, with this match correlating strongly with general symptoms. Lastly, we validated that the spatial characteristics of schizophrenia attractors may be influenced by a reduction in global interactions. These findings reveal the multilayered associations between brain global interactions, multistable pattern abnormalities, and general symptoms in schizophrenia, offering new insights into its pathophysiological mechanisms.
Type
Publication
Proceedings of the 2025 5th International Conference on Bioinformatics and Intelligent Computing

Authors
Research Scholar
lindu[at]fas.harvard.edu
ldu[at]mit.edu
lindu[at]fas.harvard.edu
ldu[at]mit.edu
Hi my name is Lin Du. I’m a Research Scholar affiliated with Department of Brain and Cognitive Sciences | McGovern Institute for Brain Research, MIT and Department of Psychology | Center for Brain Science, Harvard University. I’m advised by Nancy Kanwisher
and Randy Buckner.