Add to ORKGIntracortical brain-machine interfaces (BMIs) may eventually restore function in those with motor disability after stroke. However, current research into the development of intracortical BMIs has focused on subjects with largely intact cortical structures, such as those with spinal cord injury. Although the stroke perilesional cortex (PLC) has been hypothesized as a potential site for a BMI, it remains unclear whether the injured motor cortical network can support neuroprosthetic control directly. Using chronic electrophysiological recordings in a rat stroke model, we demonstrate here the PLC's capacity for neuroprosthetic control and physiological plasticity. We initially found that the perilesional network demonstrated abnormally increase...
Stroke causes life long disabilities where few therapeutic options are available. Using electrical a...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
In this conceptual review, we highlight our strategy for, and progress in the development of cortico...
Intracortical brain-machine interfaces (BMIs) may eventually restore function in those with motor di...
Research on brain-machine interface (BMI) systems has flourished in recent years, with motor BMIs sh...
Brain-machine interface (BMI) systems hold great promise for improving quality of life in patients w...
Brain–machine interfaces (BMI) permit bypass motor system disruption by coupling contingent neuroele...
<div><p>Stroke causes life long disabilities where few therapeutic options are available. Using elec...
Cortical control of neuroprosthetic devices is known to require neuronal adaptations. It remains unc...
Chronic impairment of upper limb motor function is a common and debilitating consequence of stroke w...
Stroke causes life long disabilities where few therapeutic options are available. Using electrical a...
Summary: Skilled movements rely on a coordinated cortical and subcortical network, but how this netw...
Skilled movements rely on a coordinated cortical and subcortical network, but how this network suppo...
Ischemic stroke insults may lead to chronic functional limitations that adversely affect patient mov...
Advances in neural recording technologies and electrophysiological techniques have spawned new oppor...
Stroke causes life long disabilities where few therapeutic options are available. Using electrical a...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
In this conceptual review, we highlight our strategy for, and progress in the development of cortico...
Intracortical brain-machine interfaces (BMIs) may eventually restore function in those with motor di...
Research on brain-machine interface (BMI) systems has flourished in recent years, with motor BMIs sh...
Brain-machine interface (BMI) systems hold great promise for improving quality of life in patients w...
Brain–machine interfaces (BMI) permit bypass motor system disruption by coupling contingent neuroele...
<div><p>Stroke causes life long disabilities where few therapeutic options are available. Using elec...
Cortical control of neuroprosthetic devices is known to require neuronal adaptations. It remains unc...
Chronic impairment of upper limb motor function is a common and debilitating consequence of stroke w...
Stroke causes life long disabilities where few therapeutic options are available. Using electrical a...
Summary: Skilled movements rely on a coordinated cortical and subcortical network, but how this netw...
Skilled movements rely on a coordinated cortical and subcortical network, but how this network suppo...
Ischemic stroke insults may lead to chronic functional limitations that adversely affect patient mov...
Advances in neural recording technologies and electrophysiological techniques have spawned new oppor...
Stroke causes life long disabilities where few therapeutic options are available. Using electrical a...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
In this conceptual review, we highlight our strategy for, and progress in the development of cortico...