International audienceBeta frequency oscillations in scalp electroencephalography (EEG) recordings over the primary motor cortex have been associated with the preparation and execution of voluntary movements. Here, we test whether changes in beta frequency are related to the preparation of adapted movements in human, and whether such effects generalise to other species (cat). Eleven healthy adult humans performed a joystick visuomotor adaptation task. Beta (15-25 Hz) scalp EEG signals recorded over the motor cortex during a pre-movement preparatory phase were, on average, significantly reduced in amplitude during early adaptation trials compared to baseline, late adaptation, or aftereffect trials. The changes in beta were not related to mea...
People vary in their capacity to learn and retain new motor skills. Although the relationship betwee...
Both abrupt and gradually imposed perturbations produce adaptive changes in motor output, but the ne...
International audienceSince the first descriptions of sensorimotor rhythms by Berger (1929) and by J...
International audienceBeta frequency oscillations in scalp electroencephalography (EEG) recordings o...
International audiencePrevious research suggests that so-called implicit and explicit processes of m...
International audienceWhile beta activity has been extensively studied in relation to voluntary move...
Various neuroimaging studies aim to understand the complex nature of human motor behavior. There exi...
Movements are associated with a beta (15-30 Hz) power decrease during movement preparation and a reb...
We propose an experimental protocol for the integrated study of motor adaptation during target-based...
Post-feedback frontal midline EEG activity has been found to correlate with error magnitude during m...
Adaptively recalibrating motor-sensory asynchrony is critical for animals to perceive self-produced ...
We propose an experimental protocol for the integrated study of motor adaptation during target-based...
International audienceIn a recent study, Tan et al. (2014a,b) showed that the increase in -power ty...
Beta oscillations are a dominant feature of the sensorimotor system. A transient and prominentincrea...
Walking in a novel environment, such as with resistance, has been associated with changes in muscle ...
People vary in their capacity to learn and retain new motor skills. Although the relationship betwee...
Both abrupt and gradually imposed perturbations produce adaptive changes in motor output, but the ne...
International audienceSince the first descriptions of sensorimotor rhythms by Berger (1929) and by J...
International audienceBeta frequency oscillations in scalp electroencephalography (EEG) recordings o...
International audiencePrevious research suggests that so-called implicit and explicit processes of m...
International audienceWhile beta activity has been extensively studied in relation to voluntary move...
Various neuroimaging studies aim to understand the complex nature of human motor behavior. There exi...
Movements are associated with a beta (15-30 Hz) power decrease during movement preparation and a reb...
We propose an experimental protocol for the integrated study of motor adaptation during target-based...
Post-feedback frontal midline EEG activity has been found to correlate with error magnitude during m...
Adaptively recalibrating motor-sensory asynchrony is critical for animals to perceive self-produced ...
We propose an experimental protocol for the integrated study of motor adaptation during target-based...
International audienceIn a recent study, Tan et al. (2014a,b) showed that the increase in -power ty...
Beta oscillations are a dominant feature of the sensorimotor system. A transient and prominentincrea...
Walking in a novel environment, such as with resistance, has been associated with changes in muscle ...
People vary in their capacity to learn and retain new motor skills. Although the relationship betwee...
Both abrupt and gradually imposed perturbations produce adaptive changes in motor output, but the ne...
International audienceSince the first descriptions of sensorimotor rhythms by Berger (1929) and by J...