Multielectrodes have been used with great success to simultaneously record the activity of neuronal populations in awake, behaving animals. In particular, there is great promise in the use of this technique to allow the control of neuroprosthetic devices by human patients. However, it is crucial to fully characterize the tissue response to the chronic implants in animal models ahead of the initiation of human clinical trials. Here we evaluated the effects of unilateral multielectrode implants on the motor cortex of rats weekly recorded for 1–6 months using several histological methods to assess metabolic markers, inflammatory response, immediate-early gene (IEG) expression, cytoskeletal integrity and apoptotic profiles. We also investigated...
Brain-implantable microelectrode arrays have the potential to provide reliable, direct interfaces wi...
Through motor prosthesis research, breakthroughs have been made to greatly improve the quality of li...
Microelectrode arrays (MEAs) enable the recording of electrical activity from cortical neurons which...
Multielectrodes have been used with great success to simultaneously record the activity of neuronal ...
Chronically implanted microelectrodes are an invaluable tool for neuroscientific research, allowing ...
Chronically implanted microelectrodes are an invaluable tool for neuroscientific research, allowing ...
The developing field of brain machine interface contains enormous potential for therapeutic benefit....
Implantable silicon-based neural probes for high-density neural recordings are important tools for t...
ObjectiveThe goal for this research was to identify molecular mechanisms that explain animal-to-anim...
<p>Chronically implanted recording electrode arrays linked to prosthetics have the potential to make...
The function of chronic brain machine interfaces depends on stable electrical contact between neuron...
Microelectrode arrays have been widely used to record and analyze neural signals and activity aiding...
Neural interfaces hold great promise to become invaluable clinical and diagnostic tools in the near ...
The function of chronic brain machine interfaces depends on stable electrical contact between neuron...
Intracortical microelectrodes that can be implanted in the brain have demonstrated significant poten...
Brain-implantable microelectrode arrays have the potential to provide reliable, direct interfaces wi...
Through motor prosthesis research, breakthroughs have been made to greatly improve the quality of li...
Microelectrode arrays (MEAs) enable the recording of electrical activity from cortical neurons which...
Multielectrodes have been used with great success to simultaneously record the activity of neuronal ...
Chronically implanted microelectrodes are an invaluable tool for neuroscientific research, allowing ...
Chronically implanted microelectrodes are an invaluable tool for neuroscientific research, allowing ...
The developing field of brain machine interface contains enormous potential for therapeutic benefit....
Implantable silicon-based neural probes for high-density neural recordings are important tools for t...
ObjectiveThe goal for this research was to identify molecular mechanisms that explain animal-to-anim...
<p>Chronically implanted recording electrode arrays linked to prosthetics have the potential to make...
The function of chronic brain machine interfaces depends on stable electrical contact between neuron...
Microelectrode arrays have been widely used to record and analyze neural signals and activity aiding...
Neural interfaces hold great promise to become invaluable clinical and diagnostic tools in the near ...
The function of chronic brain machine interfaces depends on stable electrical contact between neuron...
Intracortical microelectrodes that can be implanted in the brain have demonstrated significant poten...
Brain-implantable microelectrode arrays have the potential to provide reliable, direct interfaces wi...
Through motor prosthesis research, breakthroughs have been made to greatly improve the quality of li...
Microelectrode arrays (MEAs) enable the recording of electrical activity from cortical neurons which...