Medical

Cell transplant enables paralyzed man to walk again

Cell transplant enables paralyzed man to walk again
A new treatment has allowed Darek Fidyka to take his first steps after being paralyzed from the chest down as a result of a knife attack (Photo: BBC Panorama)
A new treatment has allowed Darek Fidyka to take his first steps after being paralyzed from the chest down as a result of a knife attack (Photo: BBC Panorama)
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A new treatment has allowed Darek Fidyka to take his first steps after being paralyzed from the chest down as a result of a knife attack (Photo: BBC Panorama)
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A new treatment has allowed Darek Fidyka to take his first steps after being paralyzed from the chest down as a result of a knife attack (Photo: BBC Panorama)

In 2010, Darek Fidyka was paralyzed from the chest down as a result of a knife attack that left an 8 mm gap in his spinal column. Now surgeons in Poland, working in collaboration with scientists in London, have given Fidyka the ability to walk again thanks to a new procedure using transplanted cells from his olfactory bulbs.

The spinal injury that left Darek Fidyka paralyzed did not see the spinal cord entirely severed, but rather an 8 mm chunk removed from the left side. Researchers have for years worked to develop treatments to help those with spinal injuries, but for Fidyka no amount of therapy was helping him recover feeling below his chest. Now, two years after the groundbreaking treatment, Fidyka has regained some feeling in his legs, feet, bowels, bladder, and can now walk with the assistance of a frame.

The procedure saw the medical team remove one of Fidyka’s olfactory bulbs then grow olfactory ensheathing cells (OECs) in culture and graft the cells onto his damaged spinal column where they helped to re-link vital nerve fibers. According to the UCL, the OECs act as pathway cells that repair and renew nerve fibers when damaged. The team chose OECs as they are the only part of the nervous system with the ability to regenerate in adults.

A few weeks after the initial OEC removal and culture harvesting, the team applied 100 micro-injections of the olfactory cells above and below the injured area. Then four thin strips of nerve tissue from Fidyka’s ankle were applied across the damaged area. After about three months they noticed muscle mass increasing on his left thigh, and after six months Fidyka was able to stand and take his first steps with the assistance of parallel bars, leg braces and a physiotherapist. Today he still undergoes five hours of physiotherapy, five days a week.

"It is immensely gratifying to see that years of research have now led to the development of a safe technique for transplanting cells into the spinal cord." said Professor Geoff Raisman, Chair of Neural Regeneration at the UCL Institute of Neurology. "I believe we stand on the threshold of a historic advance and that the continuation of our work will be of major benefit to mankind. I believe we have now opened the door to a treatment of spinal cord injury that will get patients out of wheel chairs. Our goal now is to develop this first procedure to a point where it can be rolled out as a worldwide general approach."

The BBC Panorama program To Walk Again shows the procedure and footage of Fidyka walking with a frame. When asked what it was like to walk again, Fidyka said, "when you can’t feel almost half your body, you are helpless, but when it starts coming back it’s as if you were born again."

The treatment marks a world first in cell transplantation and paralysis reversal. The project was jointly funded by the Nicholls Spinal Injury Foundation and the UK Stem Cell Foundation. Professor Raisman, who first discovered OECs in 1985, went on to show how the treatment could be applied on rats with spinal injuries in 1997.

Details of the research can be found in the journal Cell Transplantation.

Sources: UCL Institute of Neurology, BBC Panorama

4 comments
4 comments
Jamie Lill
Amazing!
Heikki Kääriäinen
Been there. My accident was flying related. Month later doctors told me that I would never walk again! Now 17 years after my accident, walking with two canes and still getting better! It is possible but you have to have a will to do it.
pmshah
I read about a similar incident here in India. A couple of years ago a worker in Ahmedabad, Gujarat fell to ground from a high tension tower and was paralysed below the waist with damaged spinal cord. With stem cell treatment he is today walking again without assistance.
Gregg Eshelman
First done on rats in 1997. Done on dogs in 2012. First done on a human almost 17 years later.
Testing and testing and testing while so many people suffered with spinal cord injuries and many died from complications of paralysis.
Now that this procedure is finally proven to work in humans, it's time to get going on it big time. There's a young Russian woman who was paralyzed in a skiing crash in the last winter olympics who could benefit from this.
The industry that makes all the support equipment etc for lifelong paralysis patients won't like a cure cutting into their bottom line, but too bad, so sad for them.
Medical research should be cure focused, not treatment focused.
If something is developed to cure a disease or at least halt it, but it only works on some people or some have adverse reactions, don't just put it on a shelf and forget it, develop tests to tell who it won't work on so those it will benefit can have it. There was an Alzheimer's treatment that proved to completely clear a human brain of the plaques and tangles (found during autopsies), but it didn't reverse any damage. But since some of the test subjects had bad reactions the testing was ended. Well #$^#^# that! It would've been better to come up with a test to tell who would have the reaction so that those who wouldn't could have their Alzheimer's progression stopped.