| scholarly article | Q13442814 |
| P50 | author | Riccardo Mazzocchio | Q42969538 |
| P2093 | author name string | Leonardo G Cohen | |
| Julie Duque | |||
| Nagako Murase | |||
| P2860 | cites work | Reemergence of activation with poststroke somatosensory recovery: a serial fMRI case study | Q48489313 |
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| Interhemispheric inhibition of the human motor cortex | Q48580925 | ||
| Long-term survival after first-ever stroke: the Oxfordshire Community Stroke Project. | Q50609530 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 400-409 | |
| P577 | publication date | 2004-03-01 | |
| P1433 | published in | Annals of Neurology | Q564414 |
| P1476 | title | Influence of interhemispheric interactions on motor function in chronic stroke. | |
| P478 | volume | 55 |
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| Q42315870 | Cerebellar-M1 Connectivity Changes Associated with Motor Learning Are Somatotopic Specific. |
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| Q46966239 | Neural correlates of proprioceptive integration in the contralesional hemisphere of very impaired patients shortly after a subcortical stroke: an FMRI study. |
| Q34945284 | Neural function, injury, and stroke subtype predict treatment gains after stroke |
| Q36935061 | Neural plasticity and its contribution to functional recovery |
| Q33223991 | Neural plasticity and recovery of function |
| Q48552093 | Neural substrates for motor imagery in severe hemiparesis |
| Q53381956 | Neural substrates of low-frequency repetitive transcranial magnetic stimulation during movement in healthy subjects and acute stroke patients. A PET study. |
| Q27303951 | Neural substrates underlying stimulation-enhanced motor skill learning after stroke |
| Q35918118 | Neuroimaging in stroke recovery: a position paper from the First International Workshop on Neuroimaging and Stroke Recovery |
| Q37215033 | Neurophysiologic Correlates of Post-stroke Mood and Emotional Control |
| Q52147341 | Neurophysiologic predictors of motor function in stroke. |
| Q38922591 | Neurophysiological and behavioural effects of dual-hemisphere transcranial direct current stimulation on the proximal upper limb. |
| Q37441246 | Neurophysiological correlates of aging-related muscle weakness. |
| Q48291312 | Neurophysiological mechanisms involved in transfer of procedural knowledge. |
| Q48966690 | Neurophysiological substrates of stroke patients with motor imagery-based Brain-Computer Interface training |
| Q37703086 | Neuroplastic Changes Following Brain Ischemia and their Contribution to Stroke Recovery: Novel Approaches in Neurorehabilitation. |
| Q47783283 | Neuroplasticity and behavioral effects of fluoxetine after experimental stroke |
| Q36950735 | Neuroplasticity in the context of motor rehabilitation after stroke. |
| Q37941490 | Neurorehabilitation of stroke |
| Q37028288 | Neurorestoration after stroke. |
| Q38757796 | New developments in clinical ischemic stroke prevention and treatment and their imaging implications |
| Q35628683 | New modalities of brain stimulation for stroke rehabilitation. |
| Q47369584 | Non-invasive brain stimulation and computational models in post-stroke aphasic patients: single session of transcranial magnetic stimulation and transcranial direct current stimulation. A randomized clinical trial |
| Q34155671 | Non-invasive brain stimulation enhances fine motor control of the hemiparetic ankle: implications for rehabilitation |
| Q38788220 | Non-invasive brain stimulation for the lower limb after stroke: what do we know so far and what should we be doing next? |
| Q33813339 | Non-invasive brain stimulation in neurorehabilitation: local and distant effects for motor recovery |
| Q36542329 | Non-invasive brain stimulation: a new strategy to improve neurorehabilitation after stroke? |
| Q28082620 | Non-invasive brain stimulation: an interventional tool for enhancing behavioral training after stroke |
| Q57793752 | Noninvasive Brain Stimulation to Enhance Functional Recovery After Stroke: Studies in Animal Models |
| Q38050787 | Noninvasive brain stimulation for motor recovery after stroke: mechanisms and future views. |
| Q36945863 | Noninvasive brain stimulation in neurorehabilitation |
| Q36608814 | Noninvasive brain stimulation in stroke rehabilitation |
| Q37732291 | Nonparetic arm force does not overinhibit the paretic arm in chronic poststroke hemiparesis |
| Q39197626 | Novel Neuromodulation Techniques to Assess Interhemispheric Communication in Neural Injury and Neurodegenerative Diseases |
| Q26800178 | Novel Stroke Therapeutics: Unraveling Stroke Pathophysiology and Its Impact on Clinical Treatments |
| Q38530090 | One hand clapping: lateralization of motor control |
| Q35569580 | Opportunities for concurrent transcranial magnetic stimulation and electroencephalography to characterize cortical activity in stroke |
| Q48379585 | Optical illusion alters M1 excitability after mirror therapy: a TMS study |
| Q35586333 | Optimizing recovery potential through simultaneous occupational therapy and non-invasive brain-stimulation using tDCS. |
| Q38168857 | Options to enhance recovery from aphasia by means of non-invasive brain stimulation and action observation therapy |
| Q64094574 | Optogenetic Stimulation Enhanced Neuronal Plasticities in Motor Recovery after Ischemic Stroke |
| Q48925538 | Paired associative stimulation of left and right human motor cortex shapes interhemispheric motor inhibition based on a Hebbian mechanism |
| Q36311236 | Pathophysiology of stroke rehabilitation: temporal aspects of neuro-functional recovery |
| Q38119212 | Patterned Brain Stimulation, What a Framework with Rhythmic and Noisy Components Might Tell Us about Recovery Maximization |
| Q31071367 | Physiological regulation of thinking: brain-computer interface (BCI) research |
| Q48116618 | Plastic changes in the vibrissa motor cortex in adult rats after output suppression in the homotopic cortex |
| Q30353528 | Plasticity in the sensorimotor cortex induced by Music-supported therapy in stroke patients: a TMS study |
| Q38006710 | Plasticity of adult sensorimotor system in severe brain infarcts: challenges and opportunities. |
| Q88169650 | Plasticity of transcallosal pathways after stroke and their role in recovery |
| Q35890363 | Post-Stroke Longitudinal Alterations of Inter-Hemispheric Correlation and Hemispheric Dominance in Mouse Pre-Motor Cortex |
| Q37093185 | Post-stroke protection from maladaptive effects of learning with the non-paretic forelimb by bimanual home cage experience in C57BL/6 mice |
| Q79713926 | Poststroke dysphagia rehabilitation by repetitive transcranial magnetic stimulation: a noncontrolled pilot study |
| Q37504998 | Predicting behavioural response to TDCS in chronic motor stroke |
| Q48909735 | Predictors and signatures of recovery from neglect in acute stroke |
| Q21129386 | Preliminary evidence for performance enhancement following parietal lobe stimulation in Developmental Dyscalculia |
| Q35698532 | Primary motor cortex in stroke: a functional MRI-guided proton MR spectroscopic study. |
| Q52152008 | Primed Physical Therapy Enhances Recovery of Upper Limb Function in Chronic Stroke Patients. |
| Q37396777 | Primed low-frequency repetitive transcranial magnetic stimulation and constraint-induced movement therapy in pediatric hemiparesis: a randomized controlled trial. |
| Q26863567 | Priming the brain to capitalize on metaplasticity in stroke rehabilitation |
| Q48604125 | Probing modifications of cortical excitability during stroke recovery with navigated transcranial magnetic stimulation. |
| Q39831326 | Proceedings of the first international workshop on advances in electrocorticography |
| Q34020263 | Promoting axonal rewiring to improve outcome after stroke |
| Q99604977 | Promotion of Poststroke Motor-Function Recovery with Repetitive Transcranial Magnetic Stimulation by Regulating the Interhemispheric Imbalance |
| Q55020460 | Proprioceptive Based Training for stroke recovery. Proposal of new treatment modality for rehabilitation of upper limb in neurological diseases. |
| Q36788864 | Putting the brain on the map: use of transcranial magnetic stimulation to assess and induce cortical plasticity of upper-extremity movement |
| Q28077473 | Real-Time fMRI in Neuroscience Research and Its Use in Studying the Aging Brain |
| Q36950700 | Recovery of function in humans: cortical stimulation and pharmacological treatments after stroke |
| Q83641072 | Recovery of motor function after stroke |
| Q48098613 | Recovery of upper-limb function due to enhanced use-dependent plasticity in chronic stroke patients |
| Q38611851 | Recovery-related indicators of motor network plasticity according to impairment severity after stroke |
| Q38528598 | Rehabilitation and neuroplasticity in children with unilateral cerebral palsy |
| Q36272801 | Rehabilitation outcomes of cardiac and non-cardiac anoxic brain injury: a single institution experience |
| Q38112131 | Rehabilitation with poststroke motor recovery: a review with a focus on neural plasticity |
| Q48165330 | Relationship between interhemispheric inhibition and motor cortex excitability in subacute stroke patients |
| Q38766220 | Reliability of Transcallosal Inhibition in Healthy Adults |
| Q47871541 | Remodeling Functional Connectivity in Multiple Sclerosis: A Challenging Therapeutic Approach |
| Q57464924 | Remote Changes in Cortical Excitability after Experimental Traumatic Brain Injury and Functional Reorganization |
| Q37854253 | Reorganization of cerebral networks after stroke: new insights from neuroimaging with connectivity approaches |
| Q38661526 | Repetitive Transcranial Magnetic Stimulation of the Brain: Mechanisms from Animal and Experimental Models |
| Q34095046 | Repetitive bilateral arm training and motor cortex activation in chronic stroke: a randomized controlled trial |
| Q48232143 | Repetitive transcranial magnetic stimulation at 1Hz and 5Hz produces sustained improvement in motor function and disability after ischaemic stroke. |
| Q24202833 | Repetitive transcranial magnetic stimulation for improving function after stroke |
| Q24236061 | Repetitive transcranial magnetic stimulation for improving function after stroke |
| Q38193312 | Repetitive transcranial magnetic stimulation for stroke rehabilitation-potential therapy or misplaced hope? |
| Q57787403 | Repetitive transcranial magnetic stimulation in combination with neuromuscular electrical stimulation for treatment of post-stroke dysphagia |
| Q34081913 | Resting interhemispheric functional magnetic resonance imaging connectivity predicts performance after stroke. |
| Q37285780 | Resting state interhemispheric motor connectivity and white matter integrity correlate with motor impairment in chronic stroke |
| Q34062392 | Resting-state functional connectivity and its association with multiple domains of upper-extremity function in chronic stroke |
| Q47299096 | Restoring Motor Functions After Stroke: Multiple Approaches and Opportunities |
| Q35634481 | Rethinking stimulation of the brain in stroke rehabilitation: why higher motor areas might be better alternatives for patients with greater impairments |
| Q28283901 | Review of transcranial direct current stimulation in poststroke recovery |
| Q34004961 | Revisiting constraint-induced movement therapy: are we too smitten with the mitten? Is all nonuse "learned"? and other quandaries |
| Q54416259 | Rewiring of the corticospinal tract in the adult rat after unilateral stroke and anti-Nogo-A therapy. |
| Q30364036 | Right Hemisphere Remapping of Naming Functions Depends on Lesion Size and Location in Poststroke Aphasia |
| Q37710467 | Role of corpus callosum integrity in arm function differs based on motor severity after stroke |
| Q26777231 | Role of the Contralesional Hemisphere in Post-Stroke Recovery of Upper Extremity Motor Function |
| Q42064027 | Role of the Contralesional vs. Ipsilesional Hemisphere in Stroke Recovery |
| Q47094519 | SSRI and Motor Recovery in Stroke: Reestablishment of Inhibitory Neural Network Tonus |
| Q35144537 | Safety and feasibility of transcranial direct current stimulation in pediatric hemiparesis: randomized controlled preliminary study. |
| Q48456710 | Safety of 6-Hz primed low-frequency rTMS in stroke |
| Q35235679 | Safety of primed repetitive transcranial magnetic stimulation and modified constraint-induced movement therapy in a randomized controlled trial in pediatric hemiparesis. |
| Q34034321 | Selective visual attention to drive cognitive brain-machine interfaces: from concepts to neurofeedback and rehabilitation applications |
| Q52150081 | Sensory deficits in ipsilesional upper-extremity in chronic stroke patients. |
| Q37224010 | Sensory dysfunction following stroke: incidence, significance, examination, and intervention |
| Q64255112 | Sensory-motor network functional connectivity in children with unilateral cerebral palsy secondary to perinatal stroke |
| Q41440947 | Serial treatments of primed low-frequency rTMS in stroke: characteristics of responders vs. nonresponders. |
| Q48106707 | Short- and long-latency interhemispheric inhibitions are additive in human motor cortex |
| Q88802633 | Short-Term Effects of Cerebellar tDCS on Standing Balance Performance in Patients with Chronic Stroke and Healthy Age-Matched Elderly |
| Q36384016 | Side of lesion influences interhemispheric inhibition in subjects with post-stroke hemiparesis |
| Q64054867 | Single Sessions of High-Definition Transcranial Direct Current Stimulation Do Not Alter Lower Extremity Biomechanical or Corticomotor Response Variables Post-stroke |
| Q33914950 | Single motor unit firing rate after stroke is higher on the less-affected side during stable low-level voluntary contractions |
| Q40097804 | Single session of dual-tDCS transiently improves precision grip and dexterity of the paretic hand after stroke |
| Q48733757 | Somatosensory-related limitations for bimanual coordination after stroke. |
| Q30358455 | Spasticity, Motor Recovery, and Neural Plasticity after Stroke. |
| Q37220080 | Speed-dependent contribution of callosal pathways to ipsilateral movements |
| Q38816320 | Spontaneous and Therapeutic-Induced Mechanisms of Functional Recovery After Stroke |
| Q36775111 | Stages of motor output reorganization after hemispheric stroke suggested by longitudinal studies of cortical physiology |
| Q36518557 | Stimulation targeting higher motor areas in stroke rehabilitation: A proof-of-concept, randomized, double-blinded placebo-controlled study of effectiveness and underlying mechanisms |
| Q38268307 | Strategies for early stroke recovery: what lies ahead? |
| Q34181845 | Strategies for stroke rehabilitation |
| 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 |
| Q30724723 | Studying the effects of transcranial direct-current stimulation in stroke recovery using magnetic resonance imaging |
| Q48482871 | Support of the concept of interhemispheric rivalry by two consecutive strokes occurring in both hemispheres: a case study |
| Q34154022 | Surround inhibition in the motor system |
| Q36242307 | Tailoring Brain Stimulation to the Nature of Rehabilitative Therapies in Stroke: A Conceptual Framework Based on their Unique Mechanisms of Recovery |
| Q55040258 | Targeted Neuromodulation of Abnormal Interhemispheric Connectivity to Promote Neural Plasticity and Recovery of Arm Function after Stroke: A Randomized Crossover Clinical Trial Study Protocol. |
| Q35773372 | Task-concurrent anodal tDCS modulates bilateral plasticity in the human suprahyoid motor cortex |
| Q43134744 | Task-dependent modulation of inputs to proximal upper limb following transcranial direct current stimulation of primary motor cortex |
| Q34646129 | Technology insight: noninvasive brain stimulation in neurology-perspectives on the therapeutic potential of rTMS and tDCS. |
| Q36956042 | The "good" limb makes the "bad" limb worse: experience-dependent interhemispheric disruption of functional outcome after cortical infarcts in rats |
| Q90082183 | The Cortical Physiology of Ipsilateral Limb Movements |
| Q35797386 | The Effects of Different Repetitive Transcranial Magnetic Stimulation (rTMS) Protocols on Cortical Gene Expression in a Rat Model of Cerebral Ischemic-Reperfusion Injury |
| Q48383125 | The Influence of Alertness on the Spatial Deployment of Visual Attention is Mediated by the Excitability of the Posterior Parietal Cortices. |
| Q36918458 | The Olympic brain. Does corticospinal plasticity play a role in acquisition of skills required for high-performance sports? |
| Q60926985 | The Persisted Effects of Low-Frequency Repetitive Transcranial Magnetic Stimulation to Augment Task-Specific Induced Hand Recovery Following Subacute Stroke: Extended Study |
| Q64263665 | The Relationship Between Blood Flow and Motor Unit Firing Rates in Response to Fatiguing Exercise Post-stroke |
| Q35911169 | The bilateral movement condition facilitates maximal but not submaximal paretic-limb grip force in people with post-stroke hemiparesis |
| Q36950319 | The corticospinal system and transcranial magnetic stimulation in stroke |
| Q36481689 | The effect of age on task-related modulation of interhemispheric balance. |
| Q46508791 | The effect of cortico-spinal tract damage on primary sensorimotor cortex activation after rehabilitation therapy |
| Q39731175 | The effects of bi-hemispheric M1-M1 transcranial direct current stimulation on primary motor cortex neurophysiology and metabolite concentration |
| Q48271366 | The effects of inhibitory and facilitatory intracortical circuits on interhemispheric inhibition in the human motor cortex |
| Q35493876 | The effects of paired associative stimulation on knee extensor motor excitability of individuals post-stroke: a pilot study |
| Q37310708 | The genomic response of the ipsilateral and contralateral cortex to stroke in aged rats |
| Q33784284 | The impact of recovery of visuo-spatial neglect on motor recovery of the upper paretic limb after stroke. |
| Q48135281 | The impact of transcranial direct current stimulation (tDCS) combined with modified constraint-induced movement therapy (mCIMT) on upper limb function in chronic stroke: a double-blind randomized controlled trial |
| Q48944640 | The plasticity of intrinsic functional connectivity patterns associated with rehabilitation intervention in chronic stroke patients |
| Q38620419 | The potential for non-invasive brain stimulation to improve function after amputation |
| Q35650567 | The relevance of aging-related changes in brain function to rehabilitation in aging-related disease. |
| Q35566313 | The right hemisphere is not unitary in its role in aphasia recovery |
| Q30476491 | The role of contralesional dorsal premotor cortex after stroke as studied with concurrent TMS-fMRI. |
| Q48515181 | The role of multiple contralesional motor areas for complex hand movements after internal capsular lesion. |
| Q37084538 | The role of noninvasive techniques in stroke therapy |
| Q48337934 | The role of the unaffected hemisphere in motor recovery after stroke |
| Q63952314 | The supplementary motor area modulates interhemispheric interactions during movement preparation |
| Q35160920 | The use of magnetic resonance spectroscopy as a tool for the measurement of bi-hemispheric transcranial electric stimulation effects on primary motor cortex metabolism |
| Q35222163 | The use of non-invasive brain stimulation techniques to facilitate recovery from post-stroke aphasia |
| Q37574467 | The use of repetitive transcranial magnetic stimulation (rTMS) for the treatment of spasticity |
| Q38309032 | The uses and interpretations of the motor-evoked potential for understanding behaviour |
| Q92711458 | Therapeutic Potential of Neurotrophins for Repair After Brain Injury: A Helping Hand From Biomaterials |
| Q42906401 | Theta Burst Stimulation of Human Primary Motor Cortex Degrades Selective Muscle Activation in the Ipsilateral Arm |
| Q37037220 | Theta burst stimulation in the rehabilitation of the upper limb: a semirandomized, placebo-controlled trial in chronic stroke patients |
| Q49022596 | Theta burst stimulation induces after-effects on contralateral primary motor cortex excitability in humans |
| Q41220153 | Time-dependent functional role of the contralesional motor cortex after stroke. |
| Q36348106 | Towards more effective robotic gait training for stroke rehabilitation: a review |
| Q44980737 | Towards novel treatments for paediatric stroke: is transcranial magnetic stimulation beneficial? |
| Q46915448 | Training of the impaired forelimb after traumatic brain injury enhances hippocampal neurogenesis in the Emx1 null mice lacking a corpus callosum |
| Q47801120 | Transcranial Direct-Current Stimulation Can Enhance Motor Learning in Children |
| Q30705609 | Transcranial brain stimulation to promote functional recovery after stroke |
| Q33855099 | Transcranial brain stimulation: clinical applications and future directions |
| Q41107792 | Transcranial direct current stimulation (tDCS) for improving capacity in activities and arm function after stroke: a network meta-analysis of randomised controlled trials |
| Q38576338 | Transcranial direct current stimulation facilitates motor learning post-stroke: a systematic review and meta-analysis |
| Q61443754 | Transcranial direct current stimulation for the treatment of motor impairment following traumatic brain injury |
| Q38093615 | Transcranial direct current stimulation in stroke rehabilitation: a review of recent advancements |
| Q57809685 | Transcranial direct current stimulation in the recovery of postural control after stroke: a pilot study |
| Q37331752 | Transcranial direct current stimulation: a noninvasive tool to facilitate stroke recovery |
| Q39292977 | Transcranial direct-current stimulation induced in stroke patients with aphasia: a prospective experimental cohort study |
| Q35973853 | Transcranial magnetic stimulation for the prediction and enhancement of rehabilitation treatment effects. |
| Q36942642 | Transcranial magnetic stimulation in mild to severe hemiparesis early after stroke: a proof of principle and novel approach to improve motor function. |
| Q59047753 | Treatments for Neurological Gait and Balance Disturbance: The Use of Noninvasive Electrical Brain Stimulation |
| Q43753447 | Two types of exercise-induced neuroplasticity in congenital hemiparesis: a transcranial magnetic stimulation, functional MRI, and magnetoencephalography study |
| Q37962281 | Understanding and enhancing motor recovery after stroke using transcranial magnetic stimulation |
| Q30368868 | Understanding the role of the primary somatosensory cortex: Opportunities for rehabilitation. |
| Q42945740 | Unilateral contractions modulate interhemispheric inhibition most strongly and most adaptively in the homologous muscle of the contralateral limb |
| Q87345099 | Unilateral imagined movement increases interhemispheric inhibition from the contralateral to ipsilateral motor cortex |
| Q26769058 | Upper Limb Immobilisation: A Neural Plasticity Model with Relevance to Poststroke Motor Rehabilitation |
| Q37363764 | Upper extremity improvements in chronic stroke: coupled bilateral load training |
| Q27011879 | Use it and/or lose it-experience effects on brain remodeling across time after stroke |
| Q48252040 | Use of transcranial magnetic stimulation of the brain in stroke rehabilitation |
| Q37000104 | Use of transcranial magnetic stimulation to influence behavior |
| Q83515880 | Use-dependent hemispheric balance |
| Q38747847 | Using Biophysical Models to Understand the Effect of tDCS on Neurorehabilitation: Searching for Optimal Covariates to Enhance Poststroke Recovery. |
| Q34717940 | Using clinical and robotic assessment tools to examine the feasibility of pairing tDCS with upper extremity physical therapy in patients with stroke and TBI: a consideration-of-concept pilot study. |
| Q37416752 | Using non-invasive brain stimulation to augment motor training-induced plasticity |
| Q50864549 | Using theoretical models from adult stroke recovery to improve use of noninvasive brain stimulation for children with congenital hemiparesis. |
| Q48218507 | Val66Met BDNF Polymorphism Implies a Different Way to Recover From Stroke Rather Than a Worse Overall Recoverability |
| Q36745274 | Val66Met BDNF gene polymorphism influences human motor cortex plasticity in acute stroke |
| Q55234407 | Video evidence of improved hand function following repetitive transcranial magnetic stimulation combined with physical therapy in stroke: a case report. |
| Q47109742 | Visual feedback alters force control and functional activity in the visuomotor network after stroke. |
| Q51740345 | Visual feedback during pedaling allows individuals post-stroke to alter inappropriately prolonged paretic vastus medialis activity. |
| Q34540689 | Voluntary Activation is Reduced in Both the More- and Less-Affected Upper Limbs after Unilateral Stroke. |
| Q33695096 | Weakened rate-dependent depression of Hoffmann's reflex and increased motoneuron hyperactivity after motor cortical infarction in mice |
| Q30478753 | What have We Learned from "Perturbing" the Human Cortical Motor System with Transcranial Magnetic Stimulation? |
| Q64250752 | White Matter Biomarkers Associated with Motor Change in Individuals with Stroke: A Continuous Theta Burst Stimulation Study |
| Q52906467 | [Botulinum toxin A in children with infantile cerebral palsy: indications and treatment concepts]. |
| Q90185044 | [Brain stimulation for treating stroke-related motor deficits] |
| Q50490325 | [Neurofeedback-based motor imagery training for rehabilitation after stroke]. |
| Q53192318 | [The importance of neuronal networks for motor rehabilitation after a stroke]. |
| Q48860093 | rTMS combined with task-oriented training to improve symmetry of interhemispheric corticomotor excitability and gait performance after stroke: a randomized trial |
| Q40139908 | tDCS and Robotics on Upper Limb Stroke Rehabilitation: Effect Modification by Stroke Duration and Type of Stroke |
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