scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1004567355 |
P356 | DOI | 10.1007/S00221-005-2226-9 |
P8608 | Fatcat ID | release_5ejs3rgrxje5flb7gdlrdv3jty |
P698 | PubMed publication ID | 15754176 |
P5875 | ResearchGate publication ID | 7980409 |
P50 | author | Michael I. Garry | Q39182877 |
Andrea Loftus | Q48358153 | ||
P2093 | author name string | J J Summers | |
P2860 | cites work | Inhibition of ipsilateral motor cortex during phasic generation of low force | Q31803044 |
Mechanisms of use-dependent plasticity in the human motor cortex | Q35120181 | ||
Role of the human motor cortex in rapid motor learning | Q43567540 | ||
Motor facilitation while observing hand actions: specificity of the effect and role of observer's orientation | Q43904769 | ||
Focal enhancement of motor cortex excitability during motor imagery: a transcranial magnetic stimulation study | Q43910517 | ||
Lateralization in motor facilitation during action observation: a TMS study | Q43971498 | ||
An interference effect of observed biological movement on action. | Q48360536 | ||
Using motor imagery in the rehabilitation of hemiparesis. | Q51947601 | ||
Repetitive bilateral arm training with rhythmic auditory cueing improves motor function in chronic hemiparetic stroke. | Q52164652 | ||
Early consolidation in human primary motor cortex. | Q52545094 | ||
Synaesthesia in phantom limbs induced with mirrors. | Q53988662 | ||
Modulation of cortical excitability during action observation: a transcranial magnetic stimulation study | Q57042369 | ||
Increased motor control of a phantom leg in humans results from the visual feedback of a virtual leg | Q59296307 | ||
Changes in motor cortex excitability during ipsilateral hand muscle activation in humans | Q73461141 | ||
Doing it with mirrors: a case study of a novel approach to neurorehabilitation | Q73564398 | ||
Facilitation of human first dorsal interosseous muscle responses to transcranial magnetic stimulation during voluntary contraction of the contralateral homonymous muscle | Q74759932 | ||
Clinical applications of motor evoked potentials | Q77319100 | ||
Rehabilitation of hemiparesis after stroke with a mirror | Q77904805 | ||
P433 | issue | 1 | |
P1104 | number of pages | 5 | |
P304 | page(s) | 118-122 | |
P577 | publication date | 2005-03-08 | |
P1433 | published in | Experimental Brain Research | Q13358841 |
P1476 | title | Mirror, mirror on the wall: viewing a mirror reflection of unilateral hand movements facilitates ipsilateral M1 excitability | |
P478 | volume | 163 |
Q39276779 | A Device for the Relief of Phantom Limb Pain and Rehabilitation in Stroke |
Q48379722 | A strategy for computer-assisted mental practice in stroke rehabilitation. |
Q51895395 | Absence of cross-limb transfer of performance gains following ballistic motor practice in older adults. |
Q42121414 | Age-Specific Effects of Mirror-Muscle Activity on Cross-Limb Adaptations Under Mirror and Non-Mirror Visual Feedback Conditions |
Q42372906 | Agency over Phantom Limb Enhanced by Short-Term Mirror Therapy |
Q48242539 | Altered visual feedback modulates cortical excitability in a mirror-box-like paradigm. |
Q34091397 | Asymmetric activation of the primary motor cortex during observation of a mirror reflection of a hand |
Q55194732 | Boosting the Motor Outcome of the Untrained Hand by Action Observation: Mirror Visual Feedback, Video Therapy, or Both Combined-What Is More Effective? |
Q99711356 | Changing Body Representation Through Full Body Ownership Illusions Might Foster Motor Rehabilitation Outcome in Patients With Stroke |
Q57492440 | Clinical Trial of the Virtual Integration Environment to Treat Phantom Limb Pain With Upper Extremity Amputation |
Q64905232 | Clinical study of combined mirror and extracorporeal shock wave therapy on upper limb spasticity in poststroke patients. |
Q64260513 | Cortical Functional Domains Show Distinctive Oscillatory Dynamic in Bimanual and Mirror Visual Feedback Tasks |
Q91726128 | Cortical mapping of mirror visual feedback training for unilateral upper extremity: A functional near-infrared spectroscopy study |
Q48481336 | Cortical mechanisms of mirror therapy after stroke |
Q35061177 | Cross-limb interference during motor learning |
Q26796238 | Crossmodal illusions in neurorehabilitation |
Q30392818 | Current trends in stroke rehabilitation. A review with focus on brain plasticity |
Q89563874 | Determining the potential sites of neural adaptation to cross-education: implications for the cross-education of muscle strength |
Q35644007 | Do mirror glasses have the same effect on brain activity as a mirror box? Evidence from a functional magnetic resonance imaging study with healthy subjects |
Q51156172 | Does Exposure to Diagnostic Ultrasound Modulate Human Nerve Responses to Magnetic Stimulation? |
Q48970151 | Don't do it! Cortical inhibition and self-attribution during action observation |
Q30437310 | Effect of a mirror-like illusion on activation in the precuneus assessed with functional near-infrared spectroscopy |
Q34178302 | Effect of constraint-induced movement therapy and mirror therapy for patients with subacute stroke |
Q37365911 | Effect of mirror therapy on upper extremity motor function in stroke patients: a randomized controlled trial |
Q34088645 | Effectiveness of transcranial direct current stimulation and visual illusion on neuropathic pain in spinal cord injury |
Q58905400 | Effects and Adherence of Mirror Therapy in People with Chronic Upper Limb Hemiparesis: A Preliminary Study |
Q38756357 | Effects of observation of hand movements reflected in a mirror on cortical activation in patients with stroke |
Q47948944 | Effects of observing normal and abnormal goal-directed hand movements on somatosensory cortical activation. |
Q37235441 | Efficacy of Mirror Therapy Containing Functional Tasks in Poststroke Patients |
Q64100426 | Exploring Hemodynamic Responses Using Mirror Visual Feedback With Electromyogram-Triggered Stimulation and Functional Near-Infrared Spectroscopy |
Q41775195 | Exploring the impact of visual and movement based priming on a motor intervention in the acute phase post-stroke in persons with severe hemiparesis of the upper extremity |
Q35843728 | Facilitation of corticospinal excitability according to motor imagery and mirror therapy in healthy subjects and stroke patients |
Q48712037 | Functional plasticity induced by mirror training: the mirror as the element connecting both hands to one hemisphere |
Q48691592 | Human motor plasticity induced by mirror visual feedback. |
Q35560230 | Improving motor performance without training: the effect of combining mirror visual feedback with transcranial direct current stimulation |
Q33401505 | Innovative approaches to the rehabilitation of upper extremity hemiparesis using virtual environments. |
Q51745534 | Intervention for phantom limb pain: A randomized single crossover study of mirror therapy. |
Q45374315 | Left/right judgement does not influence the effect of mirror therapy after stroke |
Q47553539 | Mirror Box Training in Hemiplegic Stroke Patients Affects Body Representation |
Q89907440 | Mirror Therapy in Stroke Rehabilitation: Current Perspectives |
Q36482237 | Mirror Visual Feedback-Induced Performance Improvement and the Influence of Hand Dominance |
Q35560096 | Mirror illusion reduces motor cortical inhibition in the ipsilateral primary motor cortex during forceful unilateral muscle contractions |
Q35047243 | Mirror observation of finger action enhances activity in anterior intraparietal sulcus: a functional magnetic resonance imaging study |
Q24201107 | Mirror therapy for improving motor function after stroke |
Q24236125 | Mirror therapy for improving motor function after stroke |
Q57689039 | Mirror therapy for improving motor function after stroke |
Q34901597 | Mirror therapy promotes recovery from severe hemiparesis: a randomized controlled trial |
Q37040861 | Mirror training to augment cross-education during resistance training: a hypothesis |
Q48102752 | Mirror visual feedback can induce motor learning in patients with callosal disconnection |
Q34591856 | Mirror visual feedback for the treatment of complex regional pain syndrome (type 1). |
Q37707023 | Mirrored feedback in chronic stroke: recruitment and effective connectivity of ipsilesional sensorimotor networks |
Q36529153 | Motor Cortex Plasticity during Unilateral Finger Movement with Mirror Visual Feedback |
Q90215513 | Motor image recall ability affects the excitability of spinal nerve function in healthy participants executing mirror therapy tasks at different complexities |
Q34148226 | Motor recovery and cortical reorganization after mirror therapy in chronic stroke patients: a phase II randomized controlled trial. |
Q30415493 | Multisensory stimulation in stroke rehabilitation |
Q36860499 | Neural Adaptations Associated with Interlimb Transfer in a Ballistic Wrist Flexion Task. |
Q37625367 | Neural Correlates of Mirror Visual Feedback-Induced Performance Improvements: A Resting-State fMRI Study |
Q37050571 | Neural pathways mediating cross education of motor function. |
Q38122368 | Noninvasive strategies to promote functional recovery after stroke. |
Q48379585 | Optical illusion alters M1 excitability after mirror therapy: a TMS study |
Q61449774 | Parietal Activation Associated With Target-Directed Right Hand Movement Is Lateralized by Mirror Feedback to the Ipsilateral Hemisphere |
Q36620609 | Postamputation pain: epidemiology, mechanisms, and treatment |
Q53169018 | Poststroke Complex Regional Pain Syndrome |
Q34534177 | Premotor-motor interhemispheric inhibition is released during movement initiation in older but not young adults |
Q34150978 | Preventing functional loss during immobilization after osteoporotic wrist fractures in elderly patients: a randomized clinical trial |
Q38243678 | Reflections on mirror therapy: a systematic review of the effect of mirror visual feedback on the brain |
Q38152273 | Role of the mirror-neuron system in cross-education. |
Q33640857 | Sensorimotor training in virtual reality: a review |
Q33653663 | The Cross-Education Phenomenon: Brain and Beyond. |
Q33658657 | The Effects of Mirror Feedback during Target Directed Movements on Ipsilateral Corticospinal Excitability |
Q35827289 | The Influence of Mirror-Visual Feedback on Training-Induced Motor Performance Gains in the Untrained Hand |
Q48409737 | The Mirror Illusion Increases Motor Cortex Excitability in Children With and Without Hemiparesis. |
Q47192476 | The TMS Motor Map Does Not Change Following a Single Session of Mirror Training Either with Or without Motor Imagery. |
Q43261961 | The effect of ballistic thumb contractions on the excitability of the ipsilateral motor cortex |
Q37717980 | The effect of mirror therapy integrating functional electrical stimulation on the gait of stroke patients |
Q46271988 | The effect of test TMS intensity on short-interval intracortical inhibition in different excitability states |
Q35845030 | The effects of stepper exercise with visual feedback on strength, walking, and stair climbing in individuals following stroke |
Q36386128 | The influence of embodiment on multisensory integration using the mirror box illusion |
Q87984098 | The ipsilateral corticospinal responses to cross-education are dependent upon the motor-training intervention |
Q27012588 | The promotion of recovery through rehabilitation after acquired brain injury in children |
Q35843270 | The synergic effects of mirror therapy and neuromuscular electrical stimulation for hand function in stroke patients |
Q37511378 | The use of visual feedback, in particular mirror visual feedback, in restoring brain function |
Q87235611 | Tibioperoneal Short Circuiting for Stump Neuroma Pain in Amputees: Revival of an Old Technique |
Q39308459 | Training with virtual visual feedback to alleviate phantom limb pain |
Q42945740 | Unilateral contractions modulate interhemispheric inhibition most strongly and most adaptively in the homologous muscle of the contralateral limb |
Q83215395 | Vision modulates corticospinal suppression in a functionally specific manner during movement of the opposite limb |
Q39181146 | Visual feedback-related changes in ipsilateral cortical excitability during unimanual movement: Implications for mirror therapy |
Search more.