scholarly article | Q13442814 |
P50 | author | Francesca Gilio | Q114420066 |
Vittorio Frasca | Q114420070 | ||
Maurizio Inghilleri | Q42770750 | ||
Alfredo Berardelli | Q57029886 | ||
Ennio Iezzi | Q57310700 | ||
Antonella Conte | Q67463890 | ||
P2860 | cites work | Plasticity in the human central nervous system | Q22337156 |
Posterior parietal cortex in rhesus monkey: II. Evidence for segregated corticocortical networks linking sensory and limbic areas with the frontal lobe | Q69104158 | ||
Reciprocal change of motor evoked potentials preceding voluntary movement in humans | Q70894169 | ||
Repetitive magnetic stimulation and motor evoked potentials | Q71690241 | ||
Responses to rapid-rate transcranial magnetic stimulation of the human motor cortex | Q72708319 | ||
Studies of human motor physiology with transcranial magnetic stimulation | Q73339080 | ||
The excitability of human cortical inhibitory circuits responsible for the muscle silent period after transcranial brain stimulation | Q73961740 | ||
Decreased corticospinal excitability after subthreshold 1 Hz rTMS over lateral premotor cortex | Q74364978 | ||
Time course of corticospinal excitability in reaction time and self-paced movements | Q77336899 | ||
A synaptic model of memory: long-term potentiation in the hippocampus | Q22337276 | ||
Non-invasive electrical and magnetic stimulation of the brain, spinal cord and roots: basic principles and procedures for routine clinical application. Report of an IFCN committee | Q29028595 | ||
Short-term synaptic enhancement and long-term potentiation in neocortex. | Q33558703 | ||
Multiple nonprimary motor areas in the human cortex | Q34064471 | ||
Attention to action | Q36835211 | ||
Premotor and parietal cortex: corticocortical connectivity and combinatorial computations | Q41369644 | ||
Parietal cortex: from sight to action | Q41587242 | ||
Functional connectivity of human premotor and motor cortex explored with repetitive transcranial magnetic stimulation. | Q43850193 | ||
Direct demonstration of the effects of repetitive transcranial magnetic stimulation on the excitability of the human motor cortex | Q44010926 | ||
Abnormalities of motor cortex excitability preceding movement in patients with dystonia. | Q44488002 | ||
Antiepileptic drugs and cortical excitability: a study with repetitive transcranial stimulation. | Q44632386 | ||
Modulation of associative human motor cortical plasticity by attention | Q44728762 | ||
Effects of motor imagery on finger force responses to transcranial magnetic stimulation | Q44926206 | ||
Excitability changes in human hand motor area dependent on afferent inputs induced by different motor tasks | Q45047531 | ||
Attention and stimulus characteristics determine the locus of motor-sequence encoding. A PET study | Q46043770 | ||
Kinesthetic, but not visual, motor imagery modulates corticomotor excitability | Q46632671 | ||
Corticospinal excitability during motor imagery of a simple tonic finger movement in patients with writer's cramp | Q46632799 | ||
Shaping the excitability of human motor cortex with premotor rTMS. | Q48174107 | ||
Knowledge of motor commands and the recruitment of human motoneurons | Q48197333 | ||
Differential effects on motorcortical inhibition induced by blockade of GABA uptake in humans | Q48208329 | ||
The role of parietal cortex in awareness of self-generated movements: a transcranial magnetic stimulation study | Q48233379 | ||
Effects of repetitive cortical stimulation on the silent period evoked by magnetic stimulation. | Q48249762 | ||
Silent period evoked by transcranial stimulation of the human cortex and cervicomedullary junction | Q48251940 | ||
Modulating neural networks with transcranial magnetic stimulation applied over the dorsal premotor and primary motor cortices. | Q48331491 | ||
Facilitation of muscle evoked responses after repetitive cortical stimulation in man. | Q48376695 | ||
The organization of the cortical motor system: new concepts | Q48393881 | ||
Inputs from regularly and irregularly discharging vestibular nerve afferents to secondary neurons in squirrel monkey vestibular nuclei. III. Correlation with vestibulospinal and vestibuloocular output pathways | Q48447343 | ||
Spread of electrical activity at cortical level after repetitive magnetic stimulation in normal subjects. | Q48456536 | ||
Attention to action: specific modulation of corticocortical interactions in humans | Q48469825 | ||
Anatomy of motor learning. I. Frontal cortex and attention to action | Q48786599 | ||
Primary motor and sensory cortex activation during motor performance and motor imagery: a functional magnetic resonance imaging study. | Q48857298 | ||
Synaptic potentiation induced by rTMS: effect of lidocaine infusion. | Q48865634 | ||
Subthreshold low-frequency repetitive transcranial magnetic stimulation over the premotor cortex modulates writer's cramp | Q48959344 | ||
Changes in the cortical silent period after repetitive magnetic stimulation of cortical motor areas | Q49086783 | ||
Activity of medial vestibulospinal tract cells during rotation and ocular movement in the alert squirrel monkey | Q49152972 | ||
Sense of body and sense of action both contribute to self-recognition. | Q52011596 | ||
The effects of distraction on pursuit rotor learning, performance and reminiscence | Q52277344 | ||
Rubber hands 'feel' touch that eyes see. | Q55067393 | ||
Enhancement of motor cortical excitability in humans by non-invasive electrical stimulation appears prior to voluntary movement | Q69032010 | ||
P433 | issue | 1 | |
P921 | main subject | attention | Q6501338 |
P1104 | number of pages | 9 | |
P304 | page(s) | 109-117 | |
P577 | publication date | 2007-05-22 | |
P1433 | published in | Experimental Brain Research | Q13358841 |
P1476 | title | Attention influences the excitability of cortical motor areas in healthy humans | |
P478 | volume | 182 |
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Q47131612 | An EEG Tool for Monitoring Patient Engagement during Stroke Rehabilitation: A Feasibility Study. |
Q48707373 | An unavoidable modulation? Sensory attention and human primary motor cortex excitability |
Q51837663 | Attention modulates specific motor cortical circuits recruited by transcranial magnetic stimulation. |
Q49142657 | Attention-related changes in short-term cortical plasticity help to explain fatigue in multiple sclerosis. |
Q27348692 | Changing ideas about others' intentions: updating prior expectations tunes activity in the human motor system |
Q42908983 | Corticospinal excitability during action observation in task-specific dystonia: a transcranial magnetic stimulation study |
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