Advances in bionic leg development

Bionic leg controlled by thoughts

Incredible new steps for bionic legs

Professor Hugh Herr is an American rock climber, engineer and biophysicist. At the age of 17 he was caught in a blizzard while climbing and ended up losing both his legs below the knee to frostbite. Ever since then, he’s worked on inventing prosthetic legs that work and feel like real legs. A recent landmark advance looks like he may well have succeeded.

An article recently published in Nature Medicine showed that Dr Herr had helped seven people with below-the-knee amputations to be able to walk again. The remarkable feat was achieved using a new type of surgery and robotic prosthetic legs.

In the groundbreaking step, Dr Herr has been able to help people walk with bionic legs (mechanical prostheses that mimic real legs) that are fully controlled by their brains.

In a healthy leg, the main muscles work in pairs, with one muscle stretching while the other contracts (like the hamstrings and the quadriceps). Dr Herr’s procedure recreates this structure in people with amputations.

The surgery involved stitching together the ends of two sets of leg muscles in the remaining part of the participants’ legs. The new connections create an “agonist-antagonist myoneural interface” (AMI). Traditional amputations can’t create these pairings and the achievement helps patients with the perception of where the leg is and movement.

Each of the patients was also given a battery-powered prosthetic leg and control unit that was specially developed by a specialist team at the Massachusetts Institute of Technology (MIT). The prosthetic legs were connected to the AMI by electrodes on the skin, so the controllers could pick up the AMI muscle movements and translate them to movement in the prosthetic leg.

Once the robotic legs were linked to the AMI, nerve signals from the brain to the muscles and back allowed the patients to fully control their new legs.

Although prosthetics controlled by nerve signals have been made before, they usually only worked during certain movements, like when the foot is off the ground while walking. But in the study the participants were in control all the time, which is unique.

The results achieved are impressive. People with the AMI-linked robotic leg walked 41% faster than people using the same prosthetic, but with a regular amputation. This meant they could walk as well as people with natural legs. They could also walk up and down stairs and navigate slopes and obstacles 32% to 43% faster than those who have had standard amputations.

AMIs can help even without a high-tech bionic leg. Many people with amputations feel a phantom limb, a ghostly sensation of their lost leg, which can be deeply uncomfortable. Since 2016, over 50 people have received AMIs and at least one study reported a reduction in the pain and discomfort of phantom limbs.

It’s uncertain if the technique could achieve similar results for amputations involving knees or upper-body limbs. However, more trials with AMIs and the rapid pace of technological improvement offers real hope for advancement in prosthetics, potentially restoring function and improving quality of life for many thousands of people.

 

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