|
| Author | Date | Title | Journal | Type |
|
| Charalambous et al. [30] | 2018 | The Feasibility of an Acute High-Intensity Exercise Bout to Promote Locomotor Learning after Stroke | Topics in Stroke Rehabilitation | Controlled trial |
| Fan et al. [31] | 2017 | Transcranial Direct Current Stimulation over Multiple Days Enhances Motor Performance of a Grip Task | Annals of Physical and Rehabilitation Medicine | Controlled trial |
| van der Vliet et al. [32] | 2017 | BDNF Val66Met but Not Transcranial Direct Current Stimulation Affects Motor Learning after Stroke | Brain Stimulation | Controlled trial |
| Pearson-Fuhrhop et al. [33] | 2017 | Genetic Variation in the Human Brain Dopamine System Influences Motor Learning and Its Modulation by L-Dopa | PloS One | Controlled trial |
| Horton et al. [34] | 2017 | Adaptation, Perceptual Learning, and Plasticity of Brain Functions | Graefe’s Archive for Clinical and Experimental Ophthalmology | Review |
| Divya et al. [35] | 2017 | Post-Stroke Cognitive Impairment - A Cross-Sectional Comparison Study between Mild Cognitive Impairment of Vascular and Non-Vascular Etiology | Journal of the Neurological Sciences | Comparative study |
| Wadden et al. [36] | 2017 | Predicting Motor Sequence Learning in Individuals with Chronic Stroke | Neurorehabilitation and Neural Repair | Controlled trial |
| Censor et al. [37] | 2016 | Altered Human Memory Modification in the Presence of Normal Consolidation | Cerebral Cortex | Controlled trial |
| Siegel et al. [38] | 2016 | Disruptions of Network Connectivity Predict Impairment in Multiple Behavioral Domains after Stroke | Proceedings of the National Academy of Sciences | Clinical trial |
| Buma et al. [39] | 2016 | Brain Activation Is Related to Smoothness of Upper Limb Movements after Stroke | Experimental Brain Research | Clinical trial |
| Reinkensmeyer et al. [40] | 2016 | Computational Neurorehabilitation: Modeling Plasticity and Learning to Predict Recovery | Journal of NeuroEngineering and Rehabilitation | Review |
| Soekadar et al. [41] | 2015 | Brain-Machine Interfaces in Neurorehabilitation of Stroke | Neurobiology of Disease | Review |
| Kitago et al. [42] | 2015 | Robotic Therapy for Chronic Stroke: General Recovery of Impairment or Improved Task-Specific Skill? | Journal of Neurophysiology | Clinical trial |
| Lefebvre et al. [43] | 2015 | Neural Substrates Underlying Stimulation-Enhanced Motor Skill Learning after Stroke | Brain: A Journal of Neurology | Controlled trial |
| Winstein et al. [44] | 2014 | Infusing Motor Learning Research into Neurorehabilitation Practice: A Historical Perspective with Case Exemplar from the Accelerated Skill Acquisition Program | Journal of Neurologic Physical Therapy: JNPT | Case study |
| Mang et al. [45] | 2013 | Promoting Neuroplasticity for Motor Rehabilitation after Stroke: Considering the Effects of Aerobic Exercise and Genetic Variation on Brain-Derived Neurotrophic Factor | Physical Therapy | Review |
| Buma et al. [46] | 2013 | Understanding Upper Limb Recovery after Stroke | Restorative Neurology and Neuroscience | Review |
| Byl et al. [47] | 2013 | Effectiveness of Sensory and Motor Rehabilitation of the Upper Limb following the principles of Neuroplasticity: Patients Stable Poststroke | Neurorehabilitation and Neural Repair | Controlled trial |
| Bowden et al. [48] | 2013 | Promoting Neuroplasticity and Recovery after Stroke: Future Directions for Rehabilitation Clinical Trials | Current Opinion in Neurology | Review |
| Albert and Kesselring [49] | 2012 | Neurorehabilitation of Stroke | Journal of Neurology | Review |
| Arya et al. [50] | 2011 | Movement Therapy Induced Neural Reorganization and Motor Recovery in Stroke: A Review. | Journal of Bodywork and Movement Therapies | Review |
| Duret [51] | 2010 | [Contributions of Robotic Devices to Upper Limb Poststroke Rehabilitation] | Revue Neurologique | Review |
| Graham et al. [52] | 2009 | The Bobath Concept in Contemporary Clinical Practice | Topics in Stroke Rehabilitation | Review |
| Ween [53] | 2008 | Functional Imaging of Stroke Recovery: An Ecological Review from a Neural Network Perspective with an Emphasis on Motor Systems | Journal of Neuroimaging | Review |
| Ziemann and Siebner [54] | 2008 | Modifying Motor Learning through Gating and Homeostatic Metaplasticity | Brain Stimulation | Review |
| Daly and Ruff [55] | 2007 | Construction of Efficacious Gait and Upper Limb Functional Interventions Based on Brain Plasticity Evidence and Model-Based Measures for Stroke Patients | The Scientific World Journal | Discussion paper |
| Hlustík and Mayer [56] | 2006 | Paretic Hand in Stroke: From Motor Cortical Plasticity Research to Rehabilitation | Cognitive and Behavioral Neurology | Review |
| Krakauer [57] | 2006 | Motor Learning: Its Relevance to Stroke Recovery and Neurorehabilitation | Current Opinion in Neurology | Review |
| Forrester et al. [58] | 2005 | Exercise-Mediated Locomotor Recovery and Lower-Limb Neuroplasticity after Stroke | Journal of Rehabilitation Research and Development | Review |
| Winstein et al. [59] | 1999 | Motor Learning after Unilateral Brain Damage | Neuropsychologia | Controlled trial |
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