Over the course of a number of months, every fascicle would develop into the muscle, resupplying it with nerve indicators. By putting an electrode into the little muscle-nerve bundle, scientists may document in actual time which nerve indicators have been coming from every fascicle. “Then, instead of trying to record tiny nerve signals, you get to record these hugely amplified muscle signals,” Cederna says. “That little piece of muscle acts as a bio-amplifier, and now you can hear what a nerve is saying.”

Ortiz-Catalan’s group realized this method from Cederna and determined to increase it. In addition to utilizing muscle grafts from different components of the physique (of their case, the leg), they determined to reroute a few of the dissected nerve fascicles to present muscle tissues within the arm. This strategy of transferring nerves to present muscle tissues, often called “targeted muscle reinnervation,” had been used earlier than to assist with prosthetic management. Combining each methods, Ortiz-Catalan says, gave them “the best of both worlds”—extra electrical nerve indicators that might be translated into totally different actions.

To ship all this nerve data to an precise prosthesis, Ortiz-Catalan and the crew related the implanted electrodes to a titanium implant drilled into the affected person’s humerus bone within the higher arm. The implant facilitated two-way communication between electrodes within the physique and the exterior prosthesis. This was no small feat: Starting from the drilling of the implant, your complete course of took over six months, together with a 12-hour surgical procedure to reroute all of the nerves.

Once all was in place, the scientists may monitor how their implanted electrode system communicated with the prosthesis. First, they tracked {the electrical} indicators from every implanted electrode. While fuzzy at first, the indicators grew to become a lot stronger. According to Jan Zbinden, a PhD pupil in Ortiz-Catalan’s lab and examine coauthor, this meant that the nerve fascicles have been efficiently integrating into their respective muscle tissues and supplying them with enough indicators.

By utilizing machine studying algorithms, the scientists may map these indicators to particular actions the affected person was making an attempt to make—opening his hand, for example, or lifting the index finger. Each motion may then be programmed into the prosthetic, so that every kind {of electrical} sign would trigger the corresponding motion within the synthetic limb.

Around 4 months after the surgical procedure, the affected person was in a position to full primary actions like flexing his wrist and opening his hand, in addition to transferring every finger. After a bit over a yr, the scientists seen that the affected person may intuitively transfer his prosthesis. This meant that moderately than having to think about every motion as a multistep process, he may merely simply consider the motion, attempt to execute it, and it might occur. “If you have to think, ‘biceps, triceps—open. Close hand,’ that creates cognitive load,” Zbinden says. “It’s a bit tougher than to suppose, ‘Oh, now I want to move my thumb.”

Today, over two years after the procedure, Zbinden says that the patient is still using the prosthetic: “Currently, he can open and close the hand, rotate the hand, flex and extend the elbow, all by thinking about it.”

This prosthetic platform, in which the patient can move all five fingers independently, is “very exciting and presents something very new,” says Oskar Aszmann, a plastic surgeon at the Medical University of Vienna in Austria who was unaffiliated with the study. He is curious to see if this platform can one day become wireless—something that is difficult due to the sheer amount of information transmitted back and forth through the electrodes and prosthesis. Both he and Cederna note, though, that the findings need to be replicated in other patients.

Ortiz-Catalan and Zbinden agree. They’re persevering with to refine the prosthetic platform and are eager about including sensory feedback. In the meantime, although, they look ahead to collaborating within the subsequent Cybathlon with their affected person. “He’s a guy who does stuff with his hands,” Ortiz-Catalan says. “He has a really physical job, works in a workshop, and seeing him use the device in his daily life—seeing that the connections work and how the function increases—that’s one of the most rewarding things that we have.”