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Natural brain state change with E/I balance shifting toward inhibition is associated with vigilance impairment

Binghao Yang, Haoran Zhang, Tianzi Jiang, Shan Yu

2023iScience22 citationsDOIOpen Access PDF

Abstract

The delicate balance between cortical excitation and inhibition (E/I) plays a pivotal role in brain state changes. While previous studies have associated cortical hyperexcitability with brain state changes induced by sleep deprivation, whether cortical hypoexcitability is also linked to brain state changes and, if so, how it could affect cognitive performance remain unknown. Here, we address these questions by examining the brain state change occurring after meals, i.e., postprandial somnolence, and comparing it with that induced by sleep deprivation. By analyzing features representing network excitability based on electroencephalogram (EEG) signals, we confirmed cortical hyperexcitability under sleep deprivation but revealed hypoexcitability under postprandial somnolence. In addition, we found that both sleep deprivation and postprandial somnolence adversely affected the level of vigilance. These results indicate that cortical E/I balance toward inhibition is associated with brain state changes, and deviation from the balanced state, regardless of its direction, could impair cognitive performance.

Topics & Concepts

Vigilance (psychology)Sleep deprivationSomnolencePostprandialBrain activity and meditationWakefulnessNeurosciencePsychologyElectroencephalographyAffect (linguistics)CognitionEffects of sleep deprivation on cognitive performanceBalance (ability)MedicineInternal medicineAdverse effectInsulinCommunicationSleep and Wakefulness ResearchNeural dynamics and brain functionOlfactory and Sensory Function Studies