The research examined data from 90 studies involving atrophy in schizophrenia. The dataset included 1,636 patients with recently diagnosed schizophrenia, 2,120 individuals with chronic disease and ...

Paper cited: Makhlouf AT et al. “Heterogenous Patterns of Brain Atrophy in Schizophrenia Localize to A Common Brain Network”Nature Mental Health DOI: 10.1038/s44220-024-00348-5 ### ...

“Brain regions generally work together in complex networks.So while we do see more uniform folding [in the right caudal anterior cingulate region] in schizophrenia, it’s best not to think of ...

Omlor, W., et al. (2025) Estimating Multimodal Structural Brain Variability in Schizophrenia Spectrum Disorders: A Worldwide ENIGMA Study.

“One of the hallmarks of schizophrenia is atrophy of neurons in the cortex,” explained lead author David E. Olson, director of the UC Davis Institute for Psychedelics and Neurotherapeutics ...

In their paper, the authors pointed out that “… the biological heterogeneity of schizophrenia is reflected in structural irregularities of the brain as well as functional abnormalities.” ...

Schizophrenia is reflected in the brain structure Date: February 26, 2025 Source: University of Zurich Summary: The symptoms of schizophrenia vary greatly from person to person. A new study shows ...

Brain imaging showed atrophy in the caudate and putamen at this time point. A longitudinal increase in the somatic cytosine-adenine-guanine repeat expansion ratio in blood predicted brain atrophy.

Whole-brain resting state functional connectivity from right inferior ventral striatum seeds in the whole sample and in the high vs. low high sensitivity C-reactive protein subgroups. Credit ...

The symptoms of schizophrenia vary greatly from person to person. A new study led by the University of Zurich shows how these differences manifest themselves in the structure of the brain.