scholarly article | Q13442814 |
P50 | author | Nam-Jong Paik | Q59690878 |
P2093 | author name string | Leonardo G Cohen | |
Pablo Celnik | |||
Yves Vandermeeren | |||
Nam-Jong Paik | |||
Michael Dimyan | |||
P2860 | cites work | Dissociable stages of human memory consolidation and reconsolidation | Q28208271 |
Effect of constraint-induced movement therapy on upper extremity function 3 to 9 months after stroke: the EXCITE randomized clinical trial | Q28271402 | ||
Mechanisms underlying recovery of motor function after stroke | Q30978384 | ||
The acquisition of skilled motor performance: fast and slow experience-driven changes in primary motor cortex | Q32135281 | ||
Effects of brain polarization on reaction times and pinch force in chronic stroke | Q33262659 | ||
Repetitive bilateral arm training and motor cortex activation in chronic stroke: a randomized controlled trial | Q34095046 | ||
Strategies for stroke rehabilitation | Q34181845 | ||
Improved naming after TMS treatments in a chronic, global aphasia patient--case report | Q34195049 | ||
Sleep and the time course of motor skill learning | Q34218206 | ||
Effects of somatosensory stimulation on use-dependent plasticity in chronic stroke | Q34472108 | ||
Motor learning: its relevance to stroke recovery and neurorehabilitation | Q34485016 | ||
New treatments in neurorehabilitation founded on basic research | Q34627265 | ||
Technology insight: noninvasive brain stimulation in neurology-perspectives on the therapeutic potential of rTMS and tDCS. | Q34646129 | ||
Non-invasive brain stimulation: a new strategy to improve neurorehabilitation after stroke? | Q36542329 | ||
Noninvasive brain stimulation in stroke rehabilitation | Q36608814 | ||
Pharmacological, surgical, and neurovascular interventions to augment acute aphasia recovery | Q36827716 | ||
Improved naming after transcranial direct current stimulation in aphasia | Q38393185 | ||
Modulation of intracortical excitability in human hand motor areas. The effect of cutaneous stimulation and its topographical arrangement | Q39705198 | ||
Neural substrates of intermanual transfer of a newly acquired motor skill | Q40160059 | ||
Pharmacological modulation of cortical excitability shifts induced by transcranial direct current stimulation in humans | Q40565066 | ||
Modulation of human corticomotor excitability by somatosensory input | Q43961432 | ||
Driving plasticity in human adult motor cortex is associated with improved motor function after brain injury | Q44025660 | ||
Pharmacological approach to the mechanisms of transcranial DC-stimulation-induced after-effects of human motor cortex excitability | Q44147102 | ||
Does induction of plastic change in motor cortex improve leg function after stroke? | Q44616603 | ||
Receptive-field changes induced by peripheral nerve stimulation in SI of adult cats | Q46626366 | ||
Contralesional paired associative stimulation increases paretic lower limb motor excitability post-stroke | Q46922108 | ||
Somatosensory stimulation enhances the effects of training functional hand tasks in patients with chronic stroke | Q46928024 | ||
Effects of somatosensory stimulation on motor function in chronic cortico-subcortical strokes | Q48250473 | ||
Induction of cortical plastic changes in wrist muscles by paired associative stimulation in healthy subjects and post-stroke patients | Q48292817 | ||
Constraint-induced therapy in stroke: magnetic-stimulation motor maps and cerebral activation | Q48360919 | ||
Cerebellar hemispheric activation ipsilateral to the paretic hand correlates with functional recovery after stroke | Q48572341 | ||
Transcranial DC stimulation (tDCS): a tool for double-blind sham-controlled clinical studies in brain stimulation | Q48679577 | ||
Sustained excitability elevations induced by transcranial DC motor cortex stimulation in humans | Q48704000 | ||
Transcranial direct current stimulation of the unaffected hemisphere in stroke patients | Q48783503 | ||
Enduring representational plasticity after somatosensory stimulation. | Q51967392 | ||
Influence of combined afferent stimulation and task-specific training following stroke: a pilot randomized controlled trial. | Q51990001 | ||
Influence of electric somatosensory stimulation on paretic-hand function in chronic stroke. | Q52025068 | ||
Afferent stimulation facilitates performance on a novel motor task. | Q52032410 | ||
Can sensory stimulation improve the functional outcome in stroke patients? | Q53674796 | ||
Changes in muscle responses to stimulation of the motor cortex induced by peripheral nerve stimulation in human subjects | Q73662938 | ||
Increase in hand muscle strength of stroke patients after somatosensory stimulation | Q77466581 | ||
Modulatory effects on human sensorimotor cortex by whole-hand afferent electrical stimulation | Q80228549 | ||
Repeated sessions of noninvasive brain DC stimulation is associated with motor function improvement in stroke patients | Q80860620 | ||
Effects of non-invasive cortical stimulation on skilled motor function in chronic stroke | Q81235236 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1764-1771 | |
P577 | publication date | 2009-03-12 | |
P1433 | published in | Stroke Journal | Q7624282 |
P1476 | title | Effects of combined peripheral nerve stimulation and brain polarization on performance of a motor sequence task after chronic stroke | |
P478 | volume | 40 |
Q35908724 | A novel method for the quantification of key components of manual dexterity after stroke. |
Q40974866 | Altered Human Memory Modification in the Presence of Normal Consolidation |
Q48387408 | Anodal tDCS Combined With Radial Nerve Stimulation Promotes Hand Motor Recovery in the Acute Phase After Ischemic Stroke |
Q34455573 | Bihemispheric brain stimulation facilitates motor recovery in chronic stroke patients |
Q36885618 | Brain State-Dependent Closed-Loop Modulation of Paired Associative Stimulation Controlled by Sensorimotor Desynchronization |
Q41504128 | Brain plasticity following MI-BCI training combined with tDCS in a randomized trial in chronic subcortical stroke subjects: a preliminary study. |
Q33771724 | Characterizing the application of transcranial direct current stimulation in human pharyngeal motor cortex |
Q38072452 | Cognitive interventions targeting brain plasticity in the prodromal and early phases of schizophrenia |
Q30459618 | Cognitive training for impaired neural systems in neuropsychiatric illness |
Q42736458 | Combination of Transcranial Direct Current Stimulation and Neuromuscular Electrical Stimulation Improves Gait Ability in a Patient in Chronic Stage of Stroke |
Q28088397 | Combinations of stroke neurorehabilitation to facilitate motor recovery: perspectives on Hebbian plasticity and homeostatic metaplasticity |
Q47723775 | Combined Brain and Peripheral Nerve Stimulation in Chronic Stroke Patients With Moderate to Severe Motor Impairment |
Q36883062 | Combined central and peripheral stimulation to facilitate motor recovery after stroke: the effect of number of sessions on outcome |
Q51541399 | Combined transcranial direct current stimulation and robot-assisted arm training in subacute stroke patients: an exploratory, randomized multicenter trial. |
Q30392818 | Current trends in stroke rehabilitation. A review with focus on brain plasticity |
Q51758713 | Differential effect of conditioning sequences in coupling inhibitory/facilitatory repetitive transcranial magnetic stimulation for poststroke motor recovery. |
Q35789190 | Education of a child neurologist: developmental neuroscience relevant to child neurology |
Q45344829 | Effect of anodal versus cathodal transcranial direct current stimulation on stroke rehabilitation: a pilot randomized controlled trial |
Q37366974 | Effectiveness and neural mechanisms associated with tDCS delivered to premotor cortex in stroke rehabilitation: study protocol for a randomized controlled trial |
Q37666816 | Effects of non-invasive brain stimulation on post-stroke dysphagia: A systematic review and meta-analysis of randomized controlled trials. |
Q33670009 | Effects of somatosensory stimulation on motor function after subacute stroke |
Q42292532 | Enhanced motor function and its neurophysiological correlates after navigated low-frequency repetitive transcranial magnetic stimulation over the contralesional motor cortex in stroke |
Q30586573 | Facilitation of corticospinal excitability by virtual reality exercise following anodal transcranial direct current stimulation in healthy volunteers and subacute stroke subjects |
Q46637956 | Home-based nerve stimulation to enhance effects of motor training in patients in the chronic phase after stroke: a proof-of-principle study |
Q89365650 | Improvement of Upper Extremity Deficit after Constraint-Induced Movement Therapy Combined with and without Preconditioning Stimulation Using Dual-hemisphere Transcranial Direct Current Stimulation and Peripheral Neuromuscular Stimulation in Chronic |
Q37576303 | Increased use-dependent plasticity in chronic insomnia |
Q38042610 | Learning, memory, and transcranial direct current stimulation |
Q48858636 | Modulation of excitability in human primary somatosensory and motor cortex by paired associative stimulation targeting the primary somatosensory cortex |
Q37937701 | Modulation of motor learning and memory formation by non-invasive cortical stimulation of the primary motor cortex. |
Q57950451 | Motor Sequence Learning in Healthy Older Adults Is Not Necessarily Facilitated by Transcranial Direct Current Stimulation (tDCS) |
Q30455251 | Neural correlates of the age-related changes in motor sequence learning and motor adaptation in older adults. |
Q36935061 | Neural plasticity and its contribution to functional recovery |
Q92000682 | Neuromodulation of the Pineal Gland via Electrical Stimulation of Its Sympathetic Innervation Pathway |
Q36950735 | Neuroplasticity in the context of motor rehabilitation after stroke. |
Q90054650 | New Vision for Visual Prostheses |
Q27022621 | New evidence for therapies in stroke rehabilitation |
Q35628683 | New modalities of brain stimulation for stroke rehabilitation. |
Q27500433 | Non-Invasive Brain Stimulation Enhances the Effects of Melodic Intonation Therapy |
Q28082620 | Non-invasive brain stimulation: an interventional tool for enhancing behavioral training after stroke |
Q38050787 | Noninvasive brain stimulation for motor recovery after stroke: mechanisms and future views. |
Q36945863 | Noninvasive brain stimulation in neurorehabilitation |
Q35050251 | Noninvasive brain stimulation may improve stroke-related dysphagia: a pilot study |
Q39197626 | Novel Neuromodulation Techniques to Assess Interhemispheric Communication in Neural Injury and Neurodegenerative Diseases |
Q26768561 | Opportunities for Guided Multichannel Non-invasive Transcranial Current Stimulation in Poststroke Rehabilitation |
Q35586333 | Optimizing recovery potential through simultaneous occupational therapy and non-invasive brain-stimulation using tDCS. |
Q50419946 | Paired associative stimulation modulates corticomotor excitability in chronic stroke: A preliminary investigation |
Q35776369 | Parietofrontal integrity determines neural modulation associated with grasping imagery after stroke |
Q41516407 | Re-stepping into the same river: competition problem rather than a reconsolidation failure in an established motor skill. |
Q26776144 | Recovery Potential After Acute Stroke |
Q36950700 | Recovery of function in humans: cortical stimulation and pharmacological treatments after stroke |
Q83641072 | Recovery of motor function after stroke |
Q34020336 | Rehabilitation after stroke: current state of the science. |
Q37011090 | Reward disrupts reactivated human skill memory. |
Q33706413 | Role of neuroimaging in promoting long‐term recovery from ischemic stroke |
Q91965094 | Searching for the optimal tDCS target for motor rehabilitation |
Q37901770 | Shaping plasticity to enhance recovery after injury |
Q38045911 | Stroke rehabilitation using noninvasive cortical stimulation: motor deficit |
Q40115827 | Structural white matter changes in descending motor tracts correlate with improvements in motor impairment after undergoing a treatment course of tDCS and physical therapy |
Q61447118 | Susceptibility of consolidated procedural memory to interference is independent of its active task-based retrieval |
Q38426653 | The Effect of Electromagnetic Field Treatment on Recovery from Ischemic Stroke in a Rat Stroke Model: Clinical, Imaging, and Pathological Findings. |
Q40203287 | The association of motor imagery and kinesthetic illusion prolongs the effect of transcranial direct current stimulation on corticospinal tract excitability |
Q64104999 | The effect of combined transcranial direct current stimulation and peripheral nerve electrical stimulation on corticospinal excitability |
Q36853444 | The effects of anodal transcranial direct current stimulation and patterned electrical stimulation on spinal inhibitory interneurons and motor function in patients with spinal cord injury |
Q35222163 | The use of non-invasive brain stimulation techniques to facilitate recovery from post-stroke aphasia |
Q38824923 | Time configuration of combined neuromodulation and motor training after stroke: A proof-of-concept study |
Q24186019 | Transcranial direct current stimulation (tDCS) for improving activities of daily living, and physical and cognitive functioning, in people after stroke |
Q24202454 | Transcranial direct current stimulation (tDCS) for improving function and activities of daily living in patients after stroke |
Q38154677 | Transcranial direct current stimulation (tDCS): does it have merit in stroke rehabilitation? A systematic review |
Q38576338 | Transcranial direct current stimulation facilitates motor learning post-stroke: a systematic review and meta-analysis |
Q45832734 | Transcranial direct current stimulation improves swallowing function in stroke patients |
Q57174684 | Transcranial magnetic stimulation and environmental enrichment enhances cortical excitability and functional outcomes after traumatic brain injury |
Q59047753 | Treatments for Neurological Gait and Balance Disturbance: The Use of Noninvasive Electrical Brain Stimulation |
Q37962281 | Understanding and enhancing motor recovery after stroke using transcranial magnetic stimulation |
Q26769058 | Upper Limb Immobilisation: A Neural Plasticity Model with Relevance to Poststroke Motor Rehabilitation |
Q55408880 | Using tDCS as an Add-On Treatment Prior to FES Therapy in Improving Upper Limb Function in Severe Chronic Stroke Patients: A Randomized Controlled Study. |
Q37119501 | Visuomotor gain distortion alters online motor performance and enhances primary motor cortex excitability in patients with stroke. |
Q84704384 | [Transcranial brain stimulation after stroke] |
Search more.