The neural bases of motor adaptation have been extensively explored in human and non-human primates. A network including the cerebellum, primary motor and the posterior parietal cortex appears to be crucial for this type of learning. Yet, to date, it is unclear whether these regions contribute directly or indirectly to the formation of motor memories. Here we trained subjects on a complex visuomotor rotation associated with long-term memory (in the order of months) to identify potential sites of structural plasticity induced by adaptation. One week of training led to i) an increment in local gray-matter concentration over the hand area of the contralateral primary motor cortex and ii) an increase in fractional anisotropy in an area undernea...
Many motor skills, once acquired, are stored over a long time period, probably sustained by permanen...
Learning a novel motor skill is associated with well characterized structural and functional plastic...
In this study, we investigate whether individual variability in the rate of visuomotor adaptation an...
AbstractThe primary motor cortex (M1) is known to control motor performance. Recent findings have al...
Long-term motor skill learning has been consistently shown to result in functional as well as struct...
Recent years have seen significant progress in our understanding of the neural substrates of motor s...
Recent studies have revealed rapid (e.g., hours to days) training-induced cortical structural change...
<p>Recent studies have revealed rapid (e.g., hours to days) training-induced cortical structural cha...
Attempting to understand the neurophysiological underpinnings of learned behaviors and the process o...
Acquired motor skills are coded in fronto-parietal brain networks, but how these networks evolve thr...
Long-term motor skill learning has been consistently shown to result in functional as well as struct...
Adaptation learning is crucial to maintain precise motor control in face of environmental perturbati...
Motor skill learning relies on neural plasticity in the motor and limbic systems. However, the spati...
AbstractNew research shows that the properties of cells in motor cortex change during learning of ne...
AbstractPrimary motor cortex has a complex, interconnected anatomical and functional architecture wi...
Many motor skills, once acquired, are stored over a long time period, probably sustained by permanen...
Learning a novel motor skill is associated with well characterized structural and functional plastic...
In this study, we investigate whether individual variability in the rate of visuomotor adaptation an...
AbstractThe primary motor cortex (M1) is known to control motor performance. Recent findings have al...
Long-term motor skill learning has been consistently shown to result in functional as well as struct...
Recent years have seen significant progress in our understanding of the neural substrates of motor s...
Recent studies have revealed rapid (e.g., hours to days) training-induced cortical structural change...
<p>Recent studies have revealed rapid (e.g., hours to days) training-induced cortical structural cha...
Attempting to understand the neurophysiological underpinnings of learned behaviors and the process o...
Acquired motor skills are coded in fronto-parietal brain networks, but how these networks evolve thr...
Long-term motor skill learning has been consistently shown to result in functional as well as struct...
Adaptation learning is crucial to maintain precise motor control in face of environmental perturbati...
Motor skill learning relies on neural plasticity in the motor and limbic systems. However, the spati...
AbstractNew research shows that the properties of cells in motor cortex change during learning of ne...
AbstractPrimary motor cortex has a complex, interconnected anatomical and functional architecture wi...
Many motor skills, once acquired, are stored over a long time period, probably sustained by permanen...
Learning a novel motor skill is associated with well characterized structural and functional plastic...
In this study, we investigate whether individual variability in the rate of visuomotor adaptation an...