Energy of Functional Brain States Correlates With Cognition in Adolescent-Onset Schizophrenia and Healthy Persons

Overview

Journal Hum Brain Mapp

Publisher Wiley

Date 2025 Jan 8

PMID 39777939

Authors

Nicholas Theis

Jyotika Bahuguna

Jonathan E Rubin

Shubha Sankar Banerjee

Brendan Muldoon

Konasale M Prasad

Affiliations

Soon will be listed here.

Abstract

Adolescent-onset schizophrenia (AOS) is relatively rare, under-studied, and associated with more severe cognitive impairments and poorer outcomes than adult-onset schizophrenia. Neuroimaging has shown altered regional activations (first-order effects) and functional connectivity (second-order effects) in AOS compared to controls. The pairwise maximum entropy model (MEM) integrates first- and second-order factors into a single quantity called energy, which is inversely related to probability of occurrence of brain activity patterns. We take a combinatorial approach to study multiple brain-wide MEMs of task-associated components; hundreds of independent MEMs for various sub-systems were fit to 7 Tesla functional MRI scans. Acquisitions were collected from 23 AOS individuals and 53 healthy controls while performing the Penn Conditional Exclusion Test (PCET) for executive function, which is known to be impaired in AOS. Accuracy of PCET performance was significantly reduced among AOS compared with controls. A majority of the models showed significant negative correlation between PCET scores and the total energy attained over the fMRI. Severity of psychopathology was correlated positively with energy. Across all instantiations, the AOS group was associated with significantly more frequent occurrence of states of higher energy, assessed with a mixed effects model. An example MEM instance was investigated further using energy landscapes, which visualize high and low energy states on a low-dimensional plane, and trajectory analysis, which quantify the evolution of brain states throughout this landscape. Both supported patient-control differences in the energy profiles. The MEM's integrated representation of energy in task-associated systems can help characterize pathophysiology of AOS, cognitive impairments, and psychopathology.

Citing Articles

Diagnostically distinct resting state fMRI energy distributions: A subject-specific maximum entropy modeling study.

Theis N, Bahuguna J, Rubin J, Cape J, Iyengar S, Prasad K bioRxiv. 2024; .

PMID: 38328170 PMC: 10849576. DOI: 10.1101/2024.01.23.576937.

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