Functional neuroimaging studies frequently demonstrated that stroke patients show bilateral activity in motor and premotor areas during movements of the paretic hand in contrast to a more lateralized activation observed in healthy subjects. Moreover, a few studies modeling functional or effective connectivity reported performance-related changes in the motor network after stroke. Here, we investigated the temporal evolution of intra- and interhemispheric (dys-) connectivity during motor recovery from the acute to the early chronic phase post-stroke. Twelve patients performed hand movements in an fMRI task in the acute (</=72 hours) and subacute stage (2 weeks) post-stroke. A subgroup of 10 patients participated in a third assessment in the ...
It remains uncertain if the contralesional primary sensorimotor cortex (CL_PSMC) contributes to moto...
The brain processes involved in the restoration of motor skill after hemiparetic stroke are not full...
The motor system comprises a network of cortical and subcortical areas interacting via excitatory an...
Functional neuroimaging studies frequently demonstrated that stroke patients show bilateral activity...
Stroke patients suffering from hemiparesis may show substantial recovery in the first months poststr...
This study aimed at identifying the impact of subcortical stroke on the interaction of cortical moto...
Activity changes in the ipsi- and contralesional parietal cortex and abnormal interhemispheric conne...
Stroke may trigger a number of cellular and molecular events in perilesional and remote brain region...
Previous studies investigating brain activation present during upper limb movement after stroke have...
Brain areas within the motor system interact directly or indirectly during motor-imagery and motor-e...
Hemiparesis after stroke is associated with increased neural activity not only in the lesioned but a...
Stroke patients with motor deficits typically feature enhanced neural activity in several cortical a...
BackgroundStudies examining the contribution of contralesional brain regions to motor recovery after...
Balance of motor network activity between the two brain hemispheres after stroke is crucial for func...
International audienceStroke is known to cause widespread activation and connectivity changes result...
It remains uncertain if the contralesional primary sensorimotor cortex (CL_PSMC) contributes to moto...
The brain processes involved in the restoration of motor skill after hemiparetic stroke are not full...
The motor system comprises a network of cortical and subcortical areas interacting via excitatory an...
Functional neuroimaging studies frequently demonstrated that stroke patients show bilateral activity...
Stroke patients suffering from hemiparesis may show substantial recovery in the first months poststr...
This study aimed at identifying the impact of subcortical stroke on the interaction of cortical moto...
Activity changes in the ipsi- and contralesional parietal cortex and abnormal interhemispheric conne...
Stroke may trigger a number of cellular and molecular events in perilesional and remote brain region...
Previous studies investigating brain activation present during upper limb movement after stroke have...
Brain areas within the motor system interact directly or indirectly during motor-imagery and motor-e...
Hemiparesis after stroke is associated with increased neural activity not only in the lesioned but a...
Stroke patients with motor deficits typically feature enhanced neural activity in several cortical a...
BackgroundStudies examining the contribution of contralesional brain regions to motor recovery after...
Balance of motor network activity between the two brain hemispheres after stroke is crucial for func...
International audienceStroke is known to cause widespread activation and connectivity changes result...
It remains uncertain if the contralesional primary sensorimotor cortex (CL_PSMC) contributes to moto...
The brain processes involved in the restoration of motor skill after hemiparetic stroke are not full...
The motor system comprises a network of cortical and subcortical areas interacting via excitatory an...