A man paralysed from the shoulders down has been able to walk using a pioneering four-limb robotic suit, or exoskeleton, that is commanded by signals from his brain.
The 28-year-old quadriplegic patient used a system of sensors implanted near his brain to send messages to move all four of his paralysed limbs of the exoskeleton which was attached to a ceiling harness to help him balance.
The results, published in The Lancet Neurology journal, bring doctors a step closer to one day being able to help paralysed patients drive computers using brain signals alone, according to researchers who led the work.
The man is paralysed from the shoulders down
But for now the exoskeleton is purely an experimental prototype and is “far from clinical application”, the researchers added.
“(This) is the first semi-invasive wireless brain-computer system designed… to activate all four limbs,” said Alim-Louis Benabid, a neurosurgeon and professor at the University of Grenoble, France, who co-led the trial.
He said previous brain-computer technologies have used invasive sensors implanted in the brain, where they can be more dangerous and often stop working.
In this trial, two recording devices were implanted, one either side of the patient’s head between the brain and the skin, spanning the sensorimotor cortex region of the brain that controls sensation and motor function.
The suit was attached to a ceiling harness to help the man balance
Each recorder contained 64 electrodes which collected brain signals and transmitted them to a decoding algorithm.
The system translated the brain signals into the movements the patient thought about, and sent his commands to the exoskeleton.
Over two years, the patient carried out various mental tasks to train the algorithm to understand his thoughts and to progressively increase the number of movements he could make.
Doctors hope to one day be able to help paralysed patients drive computers using brain signals alone
Commenting on the results, Tom Shakespeare, a professor at the London School of Hygiene and Tropical Medicine, said it was “a welcome and exciting advance” but added: “Proof of concept is a long way from usable clinical possibility.”
“A danger of hype always exists in this field. Even if ever workable, cost constraints mean that high-tech options are never going to be available to most people in the world with spinal cord injury.”