Faculty advisor: Giuseppe PellizzerBrain activity can be described by its oscillatory characteristics. It is well known that synchrony in beta-band oscillations (14-28 Hz) in the primary motor cortex decreases during the preparation and execution of a movement. Furthermore, it has been shown that in conditions in which discrete cues display the possible location of upcoming movement targets, the level of desynchronization decreases as the number of cues increases. However, it unclear whether and how beta-band activity is affected by uncertainty about the range of possible directions of movement. We investigated this problem by recording magnetoencephalography while participants performed a cue task. The participant controlled a cursor usin...
Contains fulltext : 129800.pdf (publisher's version ) (Open Access)Alpha (8-12 Hz)...
Beta-range oscillatory activity measured over the motor cortex and beta synchrony between cortex and...
Although beta oscillations (< 13–35 Hz) are often considered as a sensorimotor rhythm, their func...
It has been known for many years that the power of beta-band oscillatory activity in motor-related b...
To be able to interact with our environment, we need to transform incoming sensory information into...
International audiencePrevious research suggests that so-called implicit and explicit processes of m...
A primate study reported the existence of neurons from the dorso-lateral prefrontal cortex which fir...
Visual information about the location of an upcoming target can be used to prepare an appropriate mo...
Contains fulltext : 134889.pdf (publisher's version ) (Open Access)Rhythmic neural...
SummaryBeta oscillations (12–30 Hz) in local field potentials are prevalent in the motor system, yet...
International audienceAlthough beta oscillations (< 13–35 Hz) are often considered as a sensorimotor...
Motor cortical beta activity (13-30 Hz) is a hallmark signature of healthy and pathological movement...
Although beta oscillations (≈ 13-35 Hz) are often considered as a sensorimotor rhythm, their functio...
International audienceSince the first descriptions of sensorimotor rhythms by Berger (1929) and by J...
Contains fulltext : 129800.pdf (publisher's version ) (Open Access)Alpha (8-12 Hz)...
Beta-range oscillatory activity measured over the motor cortex and beta synchrony between cortex and...
Although beta oscillations (< 13–35 Hz) are often considered as a sensorimotor rhythm, their func...
It has been known for many years that the power of beta-band oscillatory activity in motor-related b...
To be able to interact with our environment, we need to transform incoming sensory information into...
International audiencePrevious research suggests that so-called implicit and explicit processes of m...
A primate study reported the existence of neurons from the dorso-lateral prefrontal cortex which fir...
Visual information about the location of an upcoming target can be used to prepare an appropriate mo...
Contains fulltext : 134889.pdf (publisher's version ) (Open Access)Rhythmic neural...
SummaryBeta oscillations (12–30 Hz) in local field potentials are prevalent in the motor system, yet...
International audienceAlthough beta oscillations (< 13–35 Hz) are often considered as a sensorimotor...
Motor cortical beta activity (13-30 Hz) is a hallmark signature of healthy and pathological movement...
Although beta oscillations (≈ 13-35 Hz) are often considered as a sensorimotor rhythm, their functio...
International audienceSince the first descriptions of sensorimotor rhythms by Berger (1929) and by J...
Contains fulltext : 129800.pdf (publisher's version ) (Open Access)Alpha (8-12 Hz)...
Beta-range oscillatory activity measured over the motor cortex and beta synchrony between cortex and...
Although beta oscillations (< 13–35 Hz) are often considered as a sensorimotor rhythm, their func...