scholarly article | Q13442814 |
P50 | author | DeAnna L Adkins | Q58579331 |
P2093 | author name string | Theresa A Jones | |
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Reorganization of movement representations in primary motor cortex following focal ischemic infarcts in adult squirrel monkeys | Q34390694 | ||
Trends in thrombolytic use for ischemic stroke in the United States | Q34508464 | ||
Motor training induces experience-specific patterns of plasticity across motor cortex and spinal cord. | Q34564497 | ||
Technology insight: noninvasive brain stimulation in neurology-perspectives on the therapeutic potential of rTMS and tDCS. | Q34646129 | ||
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Should the injured and intact hemispheres be treated differently during the early phases of physical restorative therapy in experimental stroke or parkinsonism? | Q35081053 | ||
Constraint-induced movement therapy after stroke | Q35182788 | ||
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Experience with the "good" limb induces aberrant synaptic plasticity in the perilesion cortex after stroke. | Q35675212 | ||
Enduring Poststroke Motor Functional Improvements by a Well-Timed Combination of Motor Rehabilitative Training and Cortical Stimulation in Rats | Q35761606 | ||
Raised corticomotor excitability of M1 forearm area following anodal tDCS is sustained during robotic wrist therapy in chronic stroke | Q35878280 | ||
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Consensus: "Can tDCS and TMS enhance motor learning and memory formation?" | Q37052070 | ||
Principles of experience-dependent neural plasticity: implications for rehabilitation after brain damage | Q37071415 | ||
Electrical stimulation of spared corticospinal axons augments connections with ipsilateral spinal motor circuits after injury. | Q46852203 | ||
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Use-dependent dendritic regrowth is limited after unilateral controlled cortical impact to the forelimb sensorimotor cortex | Q47120494 | ||
Efficacy of rehabilitative experience declines with time after focal ischemic brain injury. | Q47220498 | ||
Nogo receptor antagonism promotes stroke recovery by enhancing axonal plasticity. | Q47230824 | ||
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Diabetes impairs cortical plasticity and functional recovery following ischemic stroke. | Q47913785 | ||
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Motor cortex stimulation enhances motor recovery and reduces peri-infarct dysfunction following ischemic insult | Q48119369 | ||
Cortical electrical stimulation combined with rehabilitative training: enhanced functional recovery and dendritic plasticity following focal cortical ischemia in rats | Q48119378 | ||
Transcranial direct current stimulation can enhance ability in motor imagery tasks | Q48128187 | ||
Relationship between interhemispheric inhibition and motor cortex excitability in subacute stroke patients | Q48165330 | ||
Increased corticofugal plasticity after unilateral cortical lesions combined with neutralization of the IN-1 antigen in adult rats | Q48168899 | ||
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Interhemispheric inhibition in distal and proximal arm representations in the primary motor cortex. | Q48313757 | ||
Early treadmill training promotes motor function after hemorrhagic stroke in rats | Q48342947 | ||
Cortical electrical stimulation alone enhances functional recovery and dendritic structures after focal cerebral ischemia in rats. | Q48397419 | ||
Overgrowth and pruning of dendrites in adult rats recovering from neocortical damage | Q48479638 | ||
Unilateral sensorimotor cortex lesions in adult rats facilitate motor skill learning with the "unaffected" forelimb and training-induced dendritic structural plasticity in the motor cortex. | Q48479683 | ||
A sham-controlled trial of a 5-day course of repetitive transcranial magnetic stimulation of the unaffected hemisphere in stroke patients | Q48482918 | ||
Enhancement of non-dominant hand motor function by anodal transcranial direct current stimulation | Q48483273 | ||
Skilled reaching in rats and humans: evidence for parallel development or homology | Q48508170 | ||
Epidural cortical stimulation enhances motor function after sensorimotor cortical infarcts in rats | Q48552551 | ||
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Extensive cortical rewiring after brain injury. | Q48708297 | ||
Time-sensitive enhancement of motor learning with the less-affected forelimb after unilateral sensorimotor cortex lesions in rats | Q48710593 | ||
Neuronal repair. Asynchronous therapy restores motor control by rewiring of the rat corticospinal tract after stroke | Q48717701 | ||
Depression of motor cortex excitability by low-frequency transcranial magnetic stimulation | Q48718680 | ||
Ultrastructural evidence for differential axonal sprouting in the striatum after thermocoagulatory and aspiration lesions of the cerebral cortex in adult rats | Q48736464 | ||
In vivo voltage-sensitive dye imaging in adult mice reveals that somatosensory maps lost to stroke are replaced over weeks by new structural and functional circuits with prolonged modes of activation within both the peri-infarct zone and distant sit | Q48749814 | ||
Transcranial direct current stimulation of the unaffected hemisphere in stroke patients | Q48783503 | ||
Contralesional motor cortex activation depends on ipsilesional corticospinal tract integrity in well-recovered subcortical stroke patients. | Q48801221 | ||
rTMS combined with task-oriented training to improve symmetry of interhemispheric corticomotor excitability and gait performance after stroke: a randomized trial | Q48860093 | ||
Synaptogenesis and dendritic growth in the cortex opposite unilateral sensorimotor cortex damage in adult rats: a quantitative electron microscopic examination | Q48918366 | ||
Bi-hemispheric contribution to functional motor recovery of the affected forelimb following focal ischemic brain injury in rats | Q48957005 | ||
Lesion-induced synaptogenesis in the dentate gyrus of aged rats: I. Loss and reacquisition of normal synaptic density | Q48972185 | ||
Vicarious function within the human primary motor cortex? A longitudinal fMRI stroke study | Q49022889 | ||
The EXCITE Trial: reacquiring upper-extremity task performance with early versus late delivery of constraint therapy. | Q51238429 | ||
Influence of interhemispheric interactions on motor function in chronic stroke. | Q52092886 | ||
Motor learning-dependent synaptogenesis is localized to functionally reorganized motor cortex. | Q52126378 | ||
Noninvasive cortical stimulation enhances motor skill acquisition over multiple days through an effect on consolidation. | Q37083590 | ||
Post-stroke protection from maladaptive effects of learning with the non-paretic forelimb by bimanual home cage experience in C57BL/6 mice | Q37093185 | ||
Repairing the human brain after stroke: I. Mechanisms of spontaneous recovery | Q37126181 | ||
Remodeling the brain with behavioral experience after stroke. | Q37196578 | ||
Remodeling of the corticospinal innervation and spontaneous behavioral recovery after ischemic stroke in adult mice | Q37246602 | ||
Motor recovery and axonal plasticity with short-term amphetamine after stroke | Q37249687 | ||
Very Early Constraint-Induced Movement during Stroke Rehabilitation (VECTORS): A single-center RCT | Q37274600 | ||
Neurorestorative therapies for stroke: underlying mechanisms and translation to the clinic | Q37307355 | ||
Maladaptive effects of learning with the less-affected forelimb after focal cortical infarcts in rats | Q37323470 | ||
Bilateral activity-dependent interactions in the developing corticospinal system | Q37339525 | ||
Axon sprouting in adult mouse spinal cord after motor cortex stroke | Q37475429 | ||
Interhemispheric competition after stroke: brain stimulation to enhance recovery of function of the affected hand | Q37521400 | ||
Coupling brain-machine interfaces with cortical stimulation for brain-state dependent stimulation: enhancing motor cortex excitability for neurorehabilitation | Q37617865 | ||
Plasticity during stroke recovery: from synapse to behaviour. | Q37627168 | ||
Reflections of experience-expectant development in repair of the adult damaged brain. | Q37890315 | ||
Brain excitability in stroke: the yin and yang of stroke progression | Q37944185 | ||
Synapse formation in the adult brain after lesions and after transplantation of embryonic tissue | Q38026804 | ||
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The influence of genetic factors on brain plasticity and recovery after neural injury | Q38050302 | ||
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Structural plasticity in the dentate gyrus- revisiting a classic injury model | Q38083021 | ||
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Cortical reorganization after stroke: how much and how functional? | Q38115085 | ||
Targeting the neural extracellular matrix in neurological disorders | Q38135178 | ||
Neurovascular remodeling in the aged ischemic brain | Q38174779 | ||
Time dependent integration of matrix metalloproteinases and their targeted substrates directs axonal sprouting and synaptogenesis following central nervous system injury | Q38248004 | ||
The back and forth of axonal injury and repair after stroke | Q38264488 | ||
The global burden of hemorrhagic stroke: a summary of findings from the GBD 2010 study | Q38272341 | ||
A neuroanatomical framework for upper limb synergies after stroke. | Q38374729 | ||
Motor representations in the intact hemisphere of the rat are reduced after repetitive training of the impaired forelimb | Q38410736 | ||
Inhibition of the contralesional hemisphere after stroke: reviewing a few of the building blocks with a focus on animal models. | Q38427953 | ||
Effect of prolonged cortical stimulation differs with size of infarct after sensorimotor cortical lesions in rats | Q38494810 | ||
Epidural Electrical Stimulation for Stroke Rehabilitation: Results of the Prospective, Multicenter, Randomized, Single-Blinded Everest Trial | Q39031868 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 358-370 | |
P577 | publication date | 2015-09-01 | |
P1433 | published in | Physiology | Q1091804 |
P1476 | title | Motor System Reorganization After Stroke: Stimulating and Training Toward Perfection | |
P478 | volume | 30 |