Implantable devices for persons who suffered of the stroke or have other brain damage.
High resolution biocompatible neurointerface connected to wearable PDA with neuromorphous
software. System imitates lost neural net area roughly, but enough to return impaired people
to their normal lives. Also usable as brain-computer interface for virtual reality and telecom.
State: Testing neurointerface materials, development of control system and software, partnership with State Medical Academy Neurosurgery Center on previous (non-invasive) project for similar purpose.
Product Description:
Implantable devices for rehabilitation of people who suffered a stroke and/or other brain tissue damage
Key advantages
Replacement of damaged brain tissue areas
Convenience for permanent use
High accuracy and durability
Flexible digital control
Moderate price
Markets
Rehabilitation after brain stroke (over 5 millions deaths every year)
Rehabilitation after another brain and scull traumatism
Replacement of damaged neural cords
Neural interfaces for prosthetics control and sensitivity
Brain-computer interface for paralyzed and then for everyone
Non-annoying monitoring of patients, operators, pilots, astronauts
Neurobiology, psychiatry and medical research
Telecommunications and general human-machine interfacing
New implantable organs and sensors
Implantable systems of mobile communication and interfacing
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