Frequency of gamma oscillations in humans is modulated by velocity of visual motion. Author: Orekhova EV1, Butorina A2, Sysoeva OV, Prokofyev A2, Nikolaeva A2, Stroganova TA2. Affiliation: 1Moscow State University of Psychology and Education orekhova.elena.v@gmail.com. 2Moscow State University of Psychology and Education. Conference/Journal: J Neurophysiol. Date published: 2015 Apr 29 Other: Pages: jn.00232.2015 , Special Notes: doi: 10.1152/jn.00232.2015 , Word Count: 260 Gamma oscillations are generated in networks of inhibitory fast-spiking (FS) parvalbumin-positive (PV) interneurons and pyramidal cells. In animals, gamma frequency is modulated by the velocity of visual motion; the effect of velocity has not been evaluated in humans. In this work, we have studied velocity-related modulations of gamma frequency in children using MEG/EEG. We also investigated if such modulations predict the prominence of the 'spatial suppression' effect (Tadin et al, 2003) that is thought to depend on cortical center-surround inhibitory mechanisms. MEG/EEG was recorded in 27 normal boys aged 8-15 years while they watched high-contrast black-and-white annular gratings drifting with velocities of 1.2, 3.6 and 6.0°/s and performed a simple detection task. The spatial suppression effect was assessed in a separate psychophysical experiment. MEG gamma oscillation frequency increased while power decreased with increasing velocity of visual motion. In EEG, the effects were less reliable. The frequencies of the velocity-specific gamma peaks were 64.9Hz, 74.8Hz and 87.1Hz for the slow, medium, and fast motions, respectively. The frequency of the gamma response elicited during slow and medium velocity of visual motion decreased with subject age whereas the range of gamma frequency modulation by velocity increased with age. The frequency modulation range predicted spatial suppression even after controlling for the effect of age. We suggest that the modulation of the MEG gamma frequency by velocity of visual motion reflects excitability of cortical inhibitory circuits and can be used to investigate their normal and pathological development in the human brain. Copyright © 2015, Journal of Neurophysiology. KEYWORDS: EEG; MEG; frequency of gamma oscillations; spatial suppression; visual cortex PMID: 25925324