Brain oscillatory activity during tactile stimulation correlates with cortical thickness of intact areas and predicts outcome in post-traumatic comatose patients

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Abstract

In this study, we have reported a correlation between structural brain changes and electroencephalography (EEG) in response to tactile stimulation in ten comatose patients after severe traumatic brain injury (TBI). Structural morphometry showed a decrease in whole-brain cortical thickness, cortical gray matter volume, and subcortical structures in ten comatose patients compared to fifteen healthy controls. The observed decrease in gray matter volume indicated brain atrophy in coma patients induced by TBI. In resting-state EEG, the power of slow-wave activity was significantly higher (26 Hz), and the power of alpha and beta rhythms was lower in coma patients than in controls. During tactile stimulation, coma patients theta rhythm power significantly decreased compared to that in the resting state. This decrease was not observed in the control group and correlated positively with better coma outcome and the volume of whole-brain gray matter, the right putamen, and the insula. It correlated negatively with the volume of damaged brain tissue. During tactile stimulation, an increase in beta rhythm power correlated with the thickness of patients somatosensory cortex. Our results showed that slow-wave desynchronization, as a nonspecific response to tactile stimulation, may serve as a sensitive index of coma outcome and morphometric changes after brain injury.

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Portnova, G., Girzhova, I., Filatova, D., Podlepich, V., Tetereva, A., & Martynova, O. (2020). Brain oscillatory activity during tactile stimulation correlates with cortical thickness of intact areas and predicts outcome in post-traumatic comatose patients. Brain Sciences, 10(10), 1–15. https://doi.org/10.3390/brainsci10100720

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