A rare circulatory problem required Emily Wheldon to have her left arm amputated three years ago. Her brain still thinks it's there. "Most days, it just feels like I've got my arm next to me," she ...

In A Nutshell For the first time in humans, scientists decoded intended movements across all three joints of a missing leg, including knee, ankle, and toes, directly from nerve signals. Tiny electrode ...

This not only explains a well-documented phenomenon, but offers a new solution when it comes to artificial limbs, researchers say. Using this brain map, it might be more straightforward than ...

A brain-imaging study of people with amputated arms has upended a long-standing belief: that the brain’s map of the body reorganizes itself to compensate for missing body parts. Previous research 1 ...

Signals from an EEG monitoring device could be used to send brain signals to a spinal cord stimulator, helping paralyzed patients control their limbs more effectively. WASHINGTON, Jan. 20, 2026 — ...

New research from the University of Pittsburgh School of Medicine and Cambridge University upends a long-standing belief about brain plasticity. A study published today in Nature Neuroscience shows ...

People with from spinal cord injuries often lose some or all their limb function. In most patients, the nerves in their limbs work fine, and the neurons in their brain are still operational, but the ...

People with spinal cord injuries often lose movement even though their brains still send the right signals. Researchers tested whether EEG brain scans could capture those signals and reroute them to ...