BACKGROUND: Motor practice is an important component of neurorehabilitation. Imaging studies in healthy individuals show that dynamic brain activation changes with practice. Defining patterns of functional brain plasticity associated with motor practice following stroke could guide rehabilitation. OBJECTIVE: The authors aimed to test whether practice-related changes in brain activity differ after stroke and to explore spatial relationships between activity changes and patterns of structural degeneration. METHODS: They studied 10 patients at least 6 months after left-hemisphere subcortical strokes and 18 healthy controls. Diffusion-weighted magnetic resonance imaging (MRI) was acquired at baseline, and functional MRI (fMRI)...
Motor rehabilitation therapy is commonly employed after strokes, but outcomes are variable and there...
Background and Purpose—The mechanisms underlying motor recovery after stroke are not fully understoo...
The motor system comprises a network of cortical and subcortical areas interacting via excitatory an...
BACKGROUND: Motor practice is an important component of neurorehabilitation. Imaging studies in ...
BACKGROUND AND PURPOSE: The mechanisms underlying motor recovery after stroke are not fully understo...
Motor rehabilitation therapy is commonly employed after strokes, but outcomes are variable and there...
Introduction: Stroke is a complex event on both behavioral and neuronal grounds. Recent investigatio...
Real-time functional MRI neurofeedback allows individuals to self-modulate their ongoing brain activ...
Objective: The contribution of cortical reorganization to motor recovery after a subcortical stroke ...
Barbara Landsmann,1,2 Daniela Pinter,2 Eva Pirker,1,2 Gerald Pichler,3 Walter Schippinger,3 Elisabet...
Neuroimaging and neurophysiology techniques were used to study some aspects of cortical sensory and ...
Several cortical and subcortical areas of brain interact coherently during various tasks such as mot...
Several cortical and subcortical areas of brain interact coherently during various tasks such as mot...
Purpose: This study aimed to identify brain areas with white matter changes that contribute to motor...
Real-time functional MRI neurofeedback allows individuals to self-modulate their ongoing brain activ...
Motor rehabilitation therapy is commonly employed after strokes, but outcomes are variable and there...
Background and Purpose—The mechanisms underlying motor recovery after stroke are not fully understoo...
The motor system comprises a network of cortical and subcortical areas interacting via excitatory an...
BACKGROUND: Motor practice is an important component of neurorehabilitation. Imaging studies in ...
BACKGROUND AND PURPOSE: The mechanisms underlying motor recovery after stroke are not fully understo...
Motor rehabilitation therapy is commonly employed after strokes, but outcomes are variable and there...
Introduction: Stroke is a complex event on both behavioral and neuronal grounds. Recent investigatio...
Real-time functional MRI neurofeedback allows individuals to self-modulate their ongoing brain activ...
Objective: The contribution of cortical reorganization to motor recovery after a subcortical stroke ...
Barbara Landsmann,1,2 Daniela Pinter,2 Eva Pirker,1,2 Gerald Pichler,3 Walter Schippinger,3 Elisabet...
Neuroimaging and neurophysiology techniques were used to study some aspects of cortical sensory and ...
Several cortical and subcortical areas of brain interact coherently during various tasks such as mot...
Several cortical and subcortical areas of brain interact coherently during various tasks such as mot...
Purpose: This study aimed to identify brain areas with white matter changes that contribute to motor...
Real-time functional MRI neurofeedback allows individuals to self-modulate their ongoing brain activ...
Motor rehabilitation therapy is commonly employed after strokes, but outcomes are variable and there...
Background and Purpose—The mechanisms underlying motor recovery after stroke are not fully understoo...
The motor system comprises a network of cortical and subcortical areas interacting via excitatory an...