Brain implant lets quadriplegic man use his own hand


BY MICHELLE STARR - posted on on April 13, 2016

24 year old quadriplegic man, Ian Burkhart, plays guitar hero Photo credit: Ohio State University

He was just 19 years old when a diving accident injured his spine and paralysed Ian Burkhart's entire body from the neck down. He was left with some small use of his arms, and no use of his legs.

Now 24, Burkhart, who is from Dublin, Ohio, is able to do things he hadn't believed possible, thanks to a pea-sized implant in his brain. It's called NeuroLife, and Burkhart has been working with applied science development nonprofit Battelle and The Ohio State University Wexner Medical Center to prove the concept of the technology. The research has beenpublished in the journal Nature.

"Participating in this research has changed me in the sense that I have a lot more hope for the future now," Burkhart said. "I always did have a certain level of hope, but now I know, first-hand, that there are going to be improvements in science and technology that will make my life better."

Two years ago, neurosurgeon Ali Rezai implanted the microelectrode array in the motor cortex of Burkhart's brain. This chip reads the electrical activity in the motor cortex and sends it to a computer in real-time.

The computer then recodes the signal and sends it to a high-definition muscle stimulation electrode sleeve worn by Burkhart. This sleeve transmits the signals into Burkhart's muscles, allowing him to move his hand and fingers. This process takes a tenth of a second. Burkhart first demonstrated it in June 2014 by opening and closing his hand.

It has taken two years of hard work for the team to get to this point, but it's been worth it: Burkhart can now use his right hand. He can retrieve a card from his wallet and swipe it, manipulate a game controller, and even pour water.

Part of the challenge has been tailoring the system to Burkhart's brain. Every move you make uses different brain signals. Interpreting the signal that Burkhart's brain uses to turn his hand, or curl his fingers, or just curl one finger, takes time. The system needs to be trained to the user's brain, and the user needs to be trained to use the system.

"During the last decade, we've learned how to decipher brain signals in patients who are completely paralysed and now, for the first time, those thoughts are being turned into movement," said study co-author Chad Bouton, who spent over a decade designing the NeuroLife system for Battelle.

"Our findings show that signals recorded from within the brain can be re-routed around an injury to the spinal cord, allowing restoration of functional movement and even movement of individual fingers."

Click here to read more




There are currently no comments

New Comment


required (not published)