| P50 | author | Jean-Jacques Orban de Xivry | Q43201508 |
| P2093 | author name string | Pablo Celnik | |
| | Reza Shadmehr | |
| | Damien Pastor | |
| | Jun Izawa | |
| | Mollie K Marko | |
| | Sarah E Pekny | |
| P2860 | cites work | A gain-field encoding of limb position and velocity in the internal model of arm dynamics | Q21146443 |
| | Rapid formation and selective stabilization of synapses for enduring motor memories | Q24615475 |
| | Learning of action through adaptive combination of motor primitives | Q24642866 |
| | Stably maintained dendritic spines are associated with lifelong memories | Q27317232 |
| | Excitability changes induced in the human motor cortex by weak transcranial direct current stimulation | Q29620089 |
| | A neuropsychological theory of motor skill learning | Q30472431 |
| | Generalization of motor learning depends on the history of prior action | Q33257265 |
| | Physiological basis of transcranial direct current stimulation | Q33827227 |
| | Direct current stimulation promotes BDNF-dependent synaptic plasticity: potential implications for motor learning | Q33830514 |
| | Rapid modulation of GABA concentration in human sensorimotor cortex during motor learning. | Q34459119 |
| | Adaptation and generalization in acceleration-dependent force fields | Q34586715 |
| | Modeling the current distribution during transcranial direct current stimulation | Q48505099 |
| | Bidirectional alterations of interhemispheric parietal balance by non-invasive cortical stimulation | Q48568988 |
| | Reaching movements with similar hand paths but different arm orientations. II. Activity of individual cells in dorsal premotor cortex and parietal area 5. | Q48600654 |
| | Polarity-sensitive modulation of cortical neurotransmitters by transcranial stimulation. | Q48649036 |
| | Reshaping the cortical motor map by unmasking latent intracortical connections | Q48793787 |
| | Neuronal correlates of motor performance and motor learning in the primary motor cortex of monkeys adapting to an external force field | Q48854409 |
| | Making arm movements within different parts of space: dynamic aspects in the primate motor cortex | Q48938901 |
| | Regional modulation of BOLD MRI responses to human sensorimotor activation by transcranial direct current stimulation | Q49025289 |
| | Modifiability of generalization in dynamics learning. | Q50892607 |
| | Quantifying generalization from trial-by-trial behavior of adaptive systems that learn with basis functions: theory and experiments in human motor control. | Q51814487 |
| | Primitives for motor adaptation reflect correlated neural tuning to position and velocity. | Q51921614 |
| | Modulation of movement-associated cortical activation by transcranial direct current stimulation. | Q51925454 |
| | Persistence of motor adaptation during constrained, multi-joint, arm movements. | Q52075419 |
| | Is interlimb transfer of force-field adaptation a cognitive response to the sudden introduction of load? | Q52087514 |
| | Spatial generalization from learning dynamics of reaching movements. | Q52164483 |
| | Reaching movements with similar hand paths but different arm orientations. I. Activity of individual cells in motor cortex. | Q52276285 |
| | Proprioception plays a different role for sensorimotor adaptation to different distortions | Q83266409 |
| | Cortical correlates of learning in monkeys adapting to a new dynamical environment | Q35052786 |
| | Mechanisms of use-dependent plasticity in the human motor cortex | Q35120181 |
| | Internal models of limb dynamics and the encoding of limb state | Q36246267 |
| | Noninvasive human brain stimulation. | Q36795780 |
| | Reach adaptation: what determines whether we learn an internal model of the tool or adapt the model of our arm? | Q36893123 |
| | Acquisition of internal models of motor tasks in children with autism | Q36961042 |
| | How does transcranial DC stimulation of the primary motor cortex alter regional neuronal activity in the human brain? | Q37030114 |
| | Noninvasive cortical stimulation enhances motor skill acquisition over multiple days through an effect on consolidation. | Q37083590 |
| | Brain polarization enhances the formation and retention of motor memories | Q37265888 |
| | Micro-rewiring as a substrate for learning | Q37279546 |
| | Generalization as a behavioral window to the neural mechanisms of learning internal models | Q37294868 |
| | Transcranial direct current stimulation: a noninvasive tool to facilitate stroke recovery | Q37331752 |
| | Representation of internal models of action in the autistic brain | Q37339404 |
| | Transcranial direct current stimulation in stroke recovery | Q37344102 |
| | Intention, action planning, and decision making in parietal-frontal circuits | Q37597679 |
| | Input to primate motor cortex from posterior parietal cortex (area 5). I. Demonstration by retrograde transport | Q39633096 |
| | Input to primate motor cortex from posterior parietal cortex (area 5). II. Identification by antidromic activation | Q39633101 |
| | Making arm movements within different parts of space: the premotor and motor cortical representation of a coordinate system for reaching to visual targets | Q42070061 |
| | Estimating the sources of motor errors for adaptation and generalization | Q43098076 |
| | Learning-related fine-scale specificity imaged in motor cortex circuits of behaving mice | Q43106543 |
| | Mechanisms influencing acquisition and recall of motor memories | Q44168271 |
| | Transfer of motor learning across arm configurations. | Q44213474 |
| | Fast perceptual learning in visual hyperacuity | Q44712446 |
| | Using the international 10-20 EEG system for positioning of transcranial magnetic stimulation | Q44772263 |
| | Modulation of internal model formation during force field-induced motor learning by anodal transcranial direct current stimulation of primary motor cortex | Q45371187 |
| | Primary motor cortex activation by transcranial direct current stimulation in the human brain | Q46714607 |
| | Transcranial direct current stimulation (tDCS) in a realistic head model | Q46784743 |
| | Improved isometric force endurance after transcranial direct current stimulation over the human motor cortical areas. | Q48113734 |
| | Long-term potentiation of horizontal connections provides a mechanism to reorganize cortical motor maps | Q48116484 |
| | Adaptive representation of dynamics during learning of a motor task | Q48126188 |
| | Focal stimulation of the posterior parietal cortex increases the excitability of the ipsilateral motor cortex | Q48130748 |
| | Increased motor cortex white matter volume predicts motor impairment in autism | Q48132966 |
| | Combined adaptiveness of specific motor cortical ensembles underlies learning. | Q48236882 |
| | Strengthening of horizontal cortical connections following skill learning | Q48243844 |
| | Suppression of LTP-like plasticity in human motor cortex by the GABAB receptor agonist baclofen | Q48247274 |
| | Transcranial direct current stimulation: a computer-based human model study | Q48253376 |
| | Facilitation of implicit motor learning by weak transcranial direct current stimulation of the primary motor cortex in the human | Q48282593 |
| | Finger movements induced by transcranial magnetic stimulation change with hand posture, but not with coil position | Q48366700 |
| | Learned dynamics of reaching movements generalize from dominant to nondominant arm. | Q48411547 |
| | Rapid plasticity of human cortical movement representation induced by practice | Q48489926 |
| P433 | issue | 19 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 7102-7110 | |
| P577 | publication date | 2011-05-01 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Stimulation of the human motor cortex alters generalization patterns of motor learning | |
| P478 | volume | 31 | |