At a glance
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Combining tDCS and Neurorehabilitation to Treat Age-related Deficits of Mobility and Cognition: UPfront Walking Study
In Brief
A clinical study evaluating Neurorehabilitation of Standard Walking, Neurorehabilitation of Complex Walking, and 2 other interventions for Mobility Limitation and Cognitive Impairment. Completed, enrolled 20 participants across 3 sites.
Detailed Summary
Loss of mobility and cognitive ability are serious conditions that threaten the independence of older adults. The objective of this study is to initiate a line of research to develop a novel therapeutic intervention to enhance both mobility and cognition via neuroplasticity of frontal/executive circuits.
Study Details
Timeline
Interventions
Neurorehabilitation is a behavioral therapeutic approach for enhancing the neural control of task performance by: Restoration of function, specificity of training, Sensory input to the nervous system, Intensity, Repetition and Progression of training. Neurorehabilitation of standard walking will focus on the use of typical steady state walking.
Neurorehabilitation is a behavioral therapeutic approach for enhancing the neural control of task performance by: Restoration of function, specificity of training, Sensory input to the nervous system, Intensity, Repetition and Progression of training. Neurorehabilitation of complex walking will focus on the use of walking tasks that require increased attention and executive functions. The following walking tasks will be used: over obstacles, navigating around obstacles, changing speeds, on soft surfaces (exercise mat), in dim lighting, while conversing with the therapist, up/down ramps and climbing/descending stairs.
tDCS will be used to induce positive neuromodulation of frontal/executive circuits to make them more amenable to the "activity-dependent neuroplasticity" that is known to occur with behavioral neurorehabilitation. Specifically, tDCS may facilitate the efficacy of our walking neurorehabilitation intervention by strengthening the synaptic connections within the recruited circuits.
tDCS will be used to induce positive neuromodulation of frontal/executive circuits to make them more amenable to the "activity-dependent neuroplasticity" that is known to occur with behavioral neurorehabilitation. Specifically, tDCS may facilitate the efficacy of our walking neurorehabilitation intervention by strengthening the synaptic connections within the recruited circuits.