Niv Tik scite author profile

What goes wrong in a schizophrenia patient's brain that makes it so different from a healthy brain? In this study, we tested the hypothesis that the abnormal brain activity in schizophrenia is tightly related to alterations in brain connectivity. Using functional magnetic resonance imaging (fMRI), we demonstrated that both resting-state functional connectivity and brain activity during the well-validated N-back task differed significantly between schizophrenia patients and healthy controls. Nevertheless, using a machine-learning approach we were able to use resting-state functional connectivity measures extracted from healthy controls to accurately predict individual variability in the task-evoked brain activation in the schizophrenia patients. The predictions were highly accurate, sensitive, and specific, offering novel insights regarding the strong coupling between brain connectivity and activity in schizophrenia. On a practical perspective, these findings may allow to generate task activity maps for clinical populations without the need to actually perform any tasks, thereby reducing patients inconvenience while saving time and money.

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Predicting individual traits from unperformed tasks

Gal

Tik

Bernstein‐Eliav

et al. 2022

NeuroImage

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The effects of synthetic cannabinoids (SCs) on brain structure and function

Livny

Cohen

Tik

et al. 2018

European Neuropsychopharmacology

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Brain volumetric changes in the general population following the COVID-19 outbreak and lockdown

et al. 2021

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Act natural: Functional connectivity from naturalistic stimuli fMRI outperforms resting-state in predicting brain activity

et al. 2022

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Niv Tik

Predicting individual variability in task‐evoked brain activity in schizophrenia

Predicting individual traits from unperformed tasks

The effects of synthetic cannabinoids (SCs) on brain structure and function

Brain volumetric changes in the general population following the COVID-19 outbreak and lockdown

Act natural: Functional connectivity from naturalistic stimuli fMRI outperforms resting-state in predicting brain activity

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