classical brain rhythms, ie, delta, theta, alpha, beta, and sleep waves, are highly heritable …
Recent studies have shown the existence of two gamma rhythms in the hippocampus
subserving different functions but, to date, primate studies in primary visual cortex have …
OJ Ahmed,
SS Cash - Frontiers in integrative neuroscience, 2013 - frontiersin.org
Neocortical gamma (30–80 Hz) rhythms correlate with attention, movement and perception
and are often disrupted in neurological and psychiatric disorders. Gamma primarily occurs …
Neuronal gamma-band synchronization is central for cognition. Respective studies in
human subjects focused on a visually induced transient enhancement of broadband EEG …
Abstract Gamma‐band activity (30–90 Hz) and the synchronization of neural activity in the
gamma‐frequency range have been observed in different cortical and subcortical structures …
The peak frequency of neuronal gamma-band synchronization has received much attention
in recent years. Gamma peak frequency shifts to higher frequency values for higher contrast …
Neuronal gamma-band (30–100 Hz) synchronization subserves fundamental functions in
neuronal processing. However, different experimental approaches differ widely in their …
Groups of activated neurons typically synchronize in the gamma-frequency band (30-
100Hz), and gamma-band synchronization has been implicated in numerous cognitive …
Gamma-band synchronization is abundant in nervous systems. Typically, the strength or
precision of gamma-band synchronization is studied. However, the precise phase with …
Abstract Neuronal gamma‐band synchronization (25–80 Hz) in visual cortex appears
sustained and stable during prolonged visual stimulation when investigated with …