Motor skill learning requires the involvement and integration of several cortical and subcortical regions. In this study, we focus on how the functional connectivity of cortical networks changes with the acquisition of a novel motor skill. Using functional magnetic resonance imaging, we measured the localized blood oxygenation level--dependent (BOLD) signal in cortical regions while subjects performed a bimanual serial reaction time task under 2 conditions: 1) explicitly learning a novel sequence (NOVEL) and 2) playing a previously learned sequence (LEARNED). To investigate stages of learning, each condition was further divided into nonoverlapping early and late conditions. Functional connectivity was measured using a task-specific low-freq...
Motor skill learning depends upon acquiring knowledge about multiple features of sequential behavior...
Neuroimaging experiments have identified several brain regions that appear to play roles in motor le...
Neuroimaging experiments have identified several brain regions that appear to play roles in motor le...
Motor skill learning requires the involvement and integration of several cortical and subcortical re...
Motor skill learning is associated with profound changes in brain activation patterns over time. Ass...
Complex bimanual motor learning causes specific changes in activation across brain regions. However,...
It has been suggested that the cortico-striatal system might play a crucial role in learning behavio...
Learning through intensive practice has been largely observed in motor, sensory and higher-order cog...
Complex bimanual motor learning causes specific changes in activation across brain regions. However,...
Here we test the hypothesis that frequency and topographically specific changes in the strength of f...
Our capacity to learn movement sequences is fundamental to our ability to interact with the environm...
Intermanual transfer of motor learning is a form of learning generalization that leads to behavioral...
Neural substrates underlying motor learning have been widely investigated with neuroimaging technolo...
We used functional magnetic resonance imaging to investigate the cortical mechanisms contributing to...
Background: Neural substrates underlying motor learning have been widely investigated with neuroimag...
Motor skill learning depends upon acquiring knowledge about multiple features of sequential behavior...
Neuroimaging experiments have identified several brain regions that appear to play roles in motor le...
Neuroimaging experiments have identified several brain regions that appear to play roles in motor le...
Motor skill learning requires the involvement and integration of several cortical and subcortical re...
Motor skill learning is associated with profound changes in brain activation patterns over time. Ass...
Complex bimanual motor learning causes specific changes in activation across brain regions. However,...
It has been suggested that the cortico-striatal system might play a crucial role in learning behavio...
Learning through intensive practice has been largely observed in motor, sensory and higher-order cog...
Complex bimanual motor learning causes specific changes in activation across brain regions. However,...
Here we test the hypothesis that frequency and topographically specific changes in the strength of f...
Our capacity to learn movement sequences is fundamental to our ability to interact with the environm...
Intermanual transfer of motor learning is a form of learning generalization that leads to behavioral...
Neural substrates underlying motor learning have been widely investigated with neuroimaging technolo...
We used functional magnetic resonance imaging to investigate the cortical mechanisms contributing to...
Background: Neural substrates underlying motor learning have been widely investigated with neuroimag...
Motor skill learning depends upon acquiring knowledge about multiple features of sequential behavior...
Neuroimaging experiments have identified several brain regions that appear to play roles in motor le...
Neuroimaging experiments have identified several brain regions that appear to play roles in motor le...