Invasive brain–machine interfaces can restore motor, sensory and cognitive functions.
However, their clinical adoption has been hindered by the surgical risk of implantation and …

The use of implants that can electrically stimulate or record electrophysiological or
neurochemical activity in nervous tissue is rapidly expanding. Despite remarkable results in …

Implanted brain electrodes construct the only means to electrically interface with individual
neurons in vivo, but their recording efficacy and biocompatibility pose limitations on scientific …

Advancements in neurotechnologies for electrophysiology, neurochemical sensing,
neuromodulation, and optogenetics are revolutionizing scientific understanding of the brain …

Implantable biosensors are valuable scientific tools for basic neuroscience research and
clinical applications. Neurotechnologies provide direct readouts of neurological signal and …

Recent advances in nanotechnology have generated wide interest in applying
nanomaterials for neural prostheses. An ideal neural interface should create seamless …

Implantable neural microelectrodes that can record extracellular biopotentials from small,
targeted groups of neurons are critical for neuroscience research and emerging clinical …

Brain-computer interface (BCI)) research seeks to develop new augmentative
communication and control technology for human patients with severe neuromuscular …

Over the past decade, many laboratories have begun to explore brain–computer interface
(BCI) technology as a radically new communication option for those with neuromuscular …

Chronically implanted recording electrode arrays linked to prosthetics have the potential to
make positive impacts on patients suffering from full or partial paralysis. Such arrays are …