“Index… ring… pinky… index… middle…”
Nathan Copeland is telling a researcher which of his fingers he feels a touch on. But the researcher is touching a robotic hand, not Copeland’s, whose hand hasn’t felt a thing in over a decade.
In this “proof of principle” experiment, a man whose spinal injury removed all sensation from his limbs was able to “feel” pressure on several robotic digits connected directly to his brain. It’s a long way from a cybernetic hand, but it opens the possibility of using one to even more of those who need it.
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Now, two caveats: First, this isn’t the first time a robotic hand has sent sensations to a user’s brain; that’s been happening for a while, and depends on how you define those things. Second, it’s important to note that as cool as this all sounds, it’s still unbelievably crude compared to the subtlety and intricacy of the nervous system — we’re nowhere near that level of control or even understanding of it.
That said, this is still important research because it skips a step many other prosthetics rely on: the peripheral nervous system. If you need to send signals from a replacement hand, you can often plug in further up the arm, tapping in where those signals would have gone anyway. But with a spinal injury, those signals never reach the brain, so that approach doesn’t work.
What Robert Gaunt and his team at the University of Pittsburgh have done is essentially plug the robotic arm directly into the brain, bypassing the intermediary nerves and spinal cord altogether.
Copeland was in an accident 12 years ago that left him a quadriplegic. But 16 years of operating his limbs means he remembers what it feels like when his hand is touched — and that means his brain remembers, too.
So the researchers had Copeland concentrate on the feeling of having different fingers touched, and tracked the brain activity associated with that feeling. Then they surgically implanted four sets of fingertip-sized microelectrode arrays into Copeland’s sensory cortex, where those feelings were centered.
Render of the microelectrode arrays used.
Over the next few months the team repeatedly stimulated those areas of the brain, finding the patterns and locations that produced the sensation of being touched on the index finger, ring finger and so on. Eventually, Copeland was hooked up to a robotic hand, each finger of which corresponded to the circuit in his brain.
Read more here: techcrunch.com/2016/10/13/brain-computer-interface-lets-a-man-with-a-spinal-injury-feel-robotic-fingers/