About this Research Topic
Recent evidence has emerged that the brain’s connectome has small-world properties, which implies that even neuronal groups distributed across distant cortical areas can communicate with one another either directly or via only a small number of intervening nodes. For instance, the oscillations dominating slow-wave sleep are the <1 Hz slow oscillation, ~12-15 Hz spindles, and ~80 Hz ripples. These well studied oscillations are generated in cortical networks and are suggested to be involved in systems memory consolidation
From this perspective, cognition, consciousness and their disturbances are not properties arising from isolated neuronal units but rather from the distributed and coordinated interplay of large neuronal assemblies. This neuronal coordination may be achieved through modulating the synchrony of rhythmic activity at low and high frequencies. As an example, different physiological processes are marked by different oscillations. Gamma-band oscillations are involved in the maintenance of working memory (WM) information. By contrast, alpha-band activity reflects the active inhibition of task-irrelevant information, whereas theta-band oscillations are involved in the organization of sequentially ordered working memory pieces of information. Changes in the precision and strength of neuronal oscillations might be responsible for the underlying cognitive deficits and possibly certain clinical symptoms in several conditions.
The goal of this Research Topic is to conceptualize the brain as a self-organizing complex system in which numerous, densely interconnected, but functionally specialized areas cooperate in ever-changing, context- and task-dependent constellations. In this investigative scenario, articles focusing on cognitive abnormalities and underlying oscillatory dysfunctions are welcome. We welcome authors to address the following, but not limited topics:
• Functional roles of neural oscillations in normal human brain (e.g., consciousness, cognition and working memory, etc)
• EEG, MEG, ECoG evidence describing neural oscillations in physiology (e.g., GABA, NMDA, etc)
• Schizophrenia and related neuropsychiatric disorders with an abnormal cognitive outcome, dysfunctional oscillations analysis via EEG, MEG recordings
• Normal sleep and sleep-related disorders: dysfunctional oscillations evidence and cognitive impact
• Epilepsy: focal onset vs. generalized onset
• Autism spectrum disorder – dysregulated oscillatory activity – sensory oscillations
• Movement disorders: oscillatory activity in the basal ganglia disturbs information processing in the basal ganglia and induce motor dysfunctions as seen in Parkinson's disease and dystonia.
Keywords: Neural Oscillations, Physiology, Neuropsychiatric Disorders, Cognition, Epilepsy, Movement Disorders
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