Objective. Individuals with neurological disease or injury such as amyotrophic lateral
sclerosis, spinal cord injury or stroke may become tetraplegic, unable to speak or even …

The large power requirement of current brain–machine interfaces is a major hindrance to
their clinical translation. In basic behavioural tasks, the downsampled magnitude of the 300 …

Brain recordings in large animal models and humans typically rely on a tethered connection,
which has restricted the spectrum of accessible experimental and clinical applications. To …

Arrays of floating neural sensors with a high channel count that covers an area of square
centimeters and larger would be transformative for neural engineering and brain–machine …

Intracortical brain-machine interfaces have shown promise for restoring function to people
with paralysis, but their translation to portable and implantable devices is hindered by their …

SCALO is the first distributed brain-computer interface (BCI) consisting of multiple wireless-
networked implants placed on different brain regions. SCALO unlocks new treatment options …

It is well known that electromagnetic radio-frequency (RF) waves that are the basis of most
commercial wireless technologies are largely unsuitable to interconnect deeply implanted …

Brain-Machine Interfaces (BMIs) have shown great potential for generating prosthetic control
signals. Translating BMIs into the clinic requires fully implantable, wireless systems; …

Objective. Studying the brain in large animal models in a restrained laboratory rig severely
limits our capacity to examine brain circuits in experimental and clinical applications …

Gastrointestinal stimulator implants have recently shown positive results in treating obesity.
However, the implantation currently requires an invasive surgical procedure. Endoscopy …