Brain Plasticity Studies
- Why Do Cells Age? Discovery of Extremely Long-Lived Proteins May Provide Insight Into Cell Aging and Neurodegenerative Diseases
- Greater Brain Activation After Cognitive Rehabilitation for MS
- No Walk in the Park: Factors That Predict Walking Difficulty in Elderly
- Broken Arm? Brain Shifts Quickly When Using a Sling or Cast
- Walk This Way: Scientists and Physiology Students Describe How a Motor Protein ‘Steps Out
- Reorganization of Functional Brain Maps After Exercise Training: Importance of Cerebellar-Thalamic-Cortical Pathway
- Get Lost Easily? The Cerebellum Is Your Navigation Assistant
- Gene Contributes To Two Different, Common Neurological Movement Disorders
- Multimodal Quantitative Magnetic Resonance Imaging of Thalamic Development and Aging across the Human Lifespan: Implications to Neurodegeneration in Multiple Sclerosis.
- Neural correlates of reliability-based cue weighting during multisensory integration.
- Repeatedly Pairing Vagus Nerve Stimulation with a Movement Reorganizes Primary Motor Cortex.
- Neuroplasticity subserving motor skill learning.
- Practice of contemporary dance improves cognitive flexibility in aging.
- Strength training of one limb increases corticomotor excitability projecting to the contralateral homologous limb.
- Combined aerobic and resistance exercise program improves task performance in patients with heart failure.
- Enhancing physical activity and brain reorganization after stroke.
- Resistance training and functional plasticity of the aging brain: a 12-month randomized controlled trial.
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