Friday, 13 November 2015

Computer Helps Paralyzed Man to Walk Again

Cutting edge technology has enabled a paralyzed man to move his legs again.



According to the Journal Neuroengineering and Rehabilitation, the subject, a male suffering from total paralysis of the legs for five years, was able to walk just under four metres with support.

The system used in this breakthrough was developed in the US by researchers from The University of California, Irvine. The test subject had suffered a severe spinal cord injury, which disrupts the link between the brain and the leg muscles. Essentially, this means that the brain can still generate signals to the legs and that the legs are still fully capable of receiving them, but the spinal cord is incapable of relaying the messages between the two.

What the researchers were able to do was use an electroencephalogram cap to read the activity in the manĂ¢€™s brain; a computer then interpreted his brainwaves and electrodes, placed at strategic points along the manĂ¢€™s legs, were then used to stimulate the leg muscles whenever he thought about walking.

It took a lot of gruelling training on the part of the patient, who effectively had to re-learn how to use his legs. He was trained, in part, via the use of virtual reality avatars and video game characters.

The results speak for themselves, although a full cure for paralysis is still a long way off, you have to feel that it just got a little bit closer to becoming a reality.

One of the researchers, Dr. An Do, told BBC News, "We showed that you can restore intuitive, brain-controlled walking after a complete spinal cord injury. (...) This non-invasive system for leg muscle stimulation is a promising method and is an advance of our current brain-controlled systems that use virtual reality or a robotic exoskeleton."

Although the results of this test are highly encouraging, experts have been quick to point out that there are many hurdles yet to overcome, among them the issue of balance, which has yet to be addressed. The patient was strapped into a harness for the experiment, something that would not be possible anywhere other than a home or hospital environment.

Nevertheless, this is still a hugely encouraging step and the success of this test will hopefully serve as a ray of hope for many people suffering paralysis.

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