Neuroprosthetics

Implantable, wireless, battery-free tactile sensing system.
A remarkable leap forward in neuroprosthetic technology by developing an implantable tactile sensing system
Implantable, wireless, battery-free tactile sensing system. A remarkable leap forward in neuroprosthetic technology by developing
Biodegradable and non-invasive neural implants
via EPFL Biodegradable and non-invasive neural implants EPFL engineers have developed a neural interface that
Real-time communications between artificial and biological neurons move neuroprosthetics closer
via Institute of Industrial Science, the University of Tokyo Real-time communications between artificial and biological
Controlling 2 prosthetic arms simultaneously with your thoughts

Researchers from the Johns Hopkins University’s Applied Physics Laboratory (APL) and School of Medicine (SOM)

Merging user and robotic control in a smart artificial hand for amputees

EPFL scientists have successfully tested new neuroprosthetic technology that combines robotic control with users’ voluntary

Controlling a robotic arm with your mind

A new study by neuroscientists at the University of Chicago shows how amputees can learn

Neurotechnology Provides Near-Natural Sense of Touch

Revolutionizing Prosthetics program achieves goal of restoring sensation A 28-year-old who has been paralyzed for

UGA’s Regenerative Bioscience Center collaborates in development of brain-friendly interfaces

Recent research published in the journal Microsystems & Nanoengineering could eventually change the way people

Clinical trial shows intuitive control of robotic arm using thought

The next generation of neuroprosthetics: More natural, effortless, intuitive movement achieved Paralyzed from the neck

Intelligent Neuroprostheses Mimic Natural Motor Control

Neuroscientists are taking inspiration from natural motor control to design new prosthetic devices that can

Neuroprosthetics for paralysis: an new implant on the spinal cord

New therapies are on the horizon for individuals paralyzed following spinal cord injury. The e-Dura