Add to ORKGNonhuman primate and human studies have suggested that populations of neurons in the posterior parietal cortex (PPC) may represent high-level aspects of action planning that can be used to control external devices as part of a brain-machine interface. However, there is no direct neuron-recording evidence that human PPC is involved in action planning, and the suitability of these signals for neuroprosthetic control has not been tested.We recorded neural population activity with arrays of microelectrodes implanted in the PPC of a tetraplegic subject. Motor imagery could be decoded from these neural populations, including imagined goals, trajectories, and types of movement.These findings indicate that the PPC of humans represents high-...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
Objective. Enable neural control of individual prosthetic fingers for participants with upper-limb p...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
The posterior parietal cortex (PPC) has long been understood as a high-level integrative station for...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
Cortical neural prosthetics extract command signals from the brain with the goal to restore function...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
Objective. Enable neural control of individual prosthetic fingers for participants with upper-limb p...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
Millions of people worldwide are afflicted with paralysis from a disruption of neural pathways betwe...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
In the last decade, research efforts into directly interfacing with the neurons of individuals with ...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
The posterior parietal cortex (PPC) has long been understood as a high-level integrative station for...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
The posterior parietal cortex (PPC), historically believed to be a sensory structure, is now viewed ...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
Cortical neural prosthetics extract command signals from the brain with the goal to restore function...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
During goal-directed movements, primates are able to rapidly and accurately control a movement despi...
Objective. Enable neural control of individual prosthetic fingers for participants with upper-limb p...