Stroke can be viewed as an acute disruption of an individual’s connectome caused by a focal or widespread loss of blood flow. Although individuals exhibit connectivity changes in multiple functional networks after stroke, the neural mechanisms that underlie the longitudinal reorganization of the connectivity patterns are still unclear. The study aimed to determine whether brain network connectivity patterns after stroke can predict longitudinal behavioral outcomes. Nineteen patients with stroke with subcortical lesions underwent two sessions of resting-state functional magnetic resonance imaging scanning at a 1-month interval. By independent component analysis, the functional connectivity within and between multiple brain networks (includin...
Brain plasticity and functional reorganization are mechanisms behind functional motor recovery of pa...
It remains uncertain if the contralesional primary sensorimotor cortex (CL_PSMC) contributes to moto...
The motor system comprises a network of cortical and subcortical areas interacting via excitatory an...
Stroke can be viewed as an acute disruption of an individual’s connectome caused by a focal or wides...
Stroke can be viewed as an acute disruption of an individual’s connectome caused by a focal or wides...
Objective: Focal brain lesions can have important remote effects on the function of distant brain re...
While ischemic stroke reflects focal damage determined by the affected vascular territory, clinical ...
PurposeThe purpose of the present study was to explore the longitudinal changes in functional homoto...
PurposeThe purpose of the present study was to explore the longitudinal changes in functional homoto...
Plasticity after stroke has traditionally been studied by observing changes only in the spatial dist...
The sensorimotor system comprises a network of cortical and subcortical areas which interact by mean...
Plasticity after stroke has traditionally been studied by observing changes only in the spatial dist...
Background and purpose: Stroke may lead to widespread functional and structural reorganization in th...
Accurate assessment of motor abilities for stroke patients is the basis for optimizing rehabilitatio...
Recent fMRI studies have demonstrated that resting-state functional connectivity (FC) is of nonstati...
Brain plasticity and functional reorganization are mechanisms behind functional motor recovery of pa...
It remains uncertain if the contralesional primary sensorimotor cortex (CL_PSMC) contributes to moto...
The motor system comprises a network of cortical and subcortical areas interacting via excitatory an...
Stroke can be viewed as an acute disruption of an individual’s connectome caused by a focal or wides...
Stroke can be viewed as an acute disruption of an individual’s connectome caused by a focal or wides...
Objective: Focal brain lesions can have important remote effects on the function of distant brain re...
While ischemic stroke reflects focal damage determined by the affected vascular territory, clinical ...
PurposeThe purpose of the present study was to explore the longitudinal changes in functional homoto...
PurposeThe purpose of the present study was to explore the longitudinal changes in functional homoto...
Plasticity after stroke has traditionally been studied by observing changes only in the spatial dist...
The sensorimotor system comprises a network of cortical and subcortical areas which interact by mean...
Plasticity after stroke has traditionally been studied by observing changes only in the spatial dist...
Background and purpose: Stroke may lead to widespread functional and structural reorganization in th...
Accurate assessment of motor abilities for stroke patients is the basis for optimizing rehabilitatio...
Recent fMRI studies have demonstrated that resting-state functional connectivity (FC) is of nonstati...
Brain plasticity and functional reorganization are mechanisms behind functional motor recovery of pa...
It remains uncertain if the contralesional primary sensorimotor cortex (CL_PSMC) contributes to moto...
The motor system comprises a network of cortical and subcortical areas interacting via excitatory an...