Post by account_disabled on Feb 13, 2024 1:54:26 GMT -5
Thanks to a collaboration between The Ohio State University Wexner Medical Center and the company that allowed year-old Ian Burkhardt, who became a quadriplegic after a car accident, to perform the hooking maneuver. It seems that some measures can be taken. The study focused on a device developed by Battelle called the , which consists of a bypass for spinal cord injuries. Its mission is to reconnect the brain and muscles, capturing the organ's nerve impulses and transmitting them in the form of electrical signals so that paralyzed patients can voluntarily control one limb. Needless to say, this brief theory is much simpler than the actual process. was the first of five patients to participate in this medical study of and his case was a .
Success. But in order to move his hands with his mind, in Ian's brain, a procedure that lasted three hours. This small device is introduced into the area of organs that move the hand and will not be used to control the legs, for example. Development has been in the works for some time, with the partnership with Ohio State beginning Cambodia Telemarketing Data Cambodia Telemarketing Datajust two years ago. In total, Bartel spent about a decade developing the algorithms and software, as well as the electrode sleeves that stimulate the muscles when they receive electrical signals. The work behind it involves obtaining data from electrodes to study in detail .
How the brains of people with physical disabilities work. The microchip in Ian's brain receives brain signals and interprets them, sending them to the computer as electrical impulses. The machine recodes the signal and sends it to a high-definition electrode sleeve, which is responsible for stimulating the corresponding muscles to perform the desired action. There is other research into how thoughts can be used to perform certain actions, brain interfaces are getting better and better, and last year we were able to see how thoughts .