Home World Paralysed man’s nose used to help him walk again after 4 years

Paralysed man’s nose used to help him walk again after 4 years


A paralysed man can walk again after receiving revolutionary treatment which one of the British scientists responsible hailed as a breakthrough “more impressive than a man walking on the Moon” — although others urged caution.

Darek Fidyka was paralysed from the chest down, but can now walk using a frame after nerve cells from his nose were transplanted into his severed spinal column in Poland, according to research published Tuesday in the journal Cell Transplantation.

“When there’s nothing, you can’t feel almost half of your body. You’re helpless, lost,” the patient, who is now recovering at the Akron Neuro-Rehabilitation Centre in Wroclaw, told the BBC’s Panorama programme, who filmed his remarkable recovery.

“When it (the feeling) begins to come back, you feel you’ve started your life all over again, as if you are reborn,” said the 40-year-old Polish man living in Poland, whose injuries were caused by a knife attack in 2010.

“It’s an incredible feeling, difficult to describe,” he added.

Olfactory ensheathing cells(OECs), which form part of the sense of smell, were used in the treatment as they are pathway cells that enable nearby nerve fibres to be regenerated.

Pawel Tabakow, consultant neurosurgeon at Wroclaw University, led a team of surgeons in removing one of the patient’s olfactory bulbs before transplanting cultured cells into the spinal cord in the treatment’s two crucial operations.

Contacted by AFP, he said the patient was “exhausted” by the documentary filming schedule, which lasted a year.

The head of neurosurgery at the Polish clinic, Wlodzimierz Jamundowicz, said in a statement it was too early to tell whether the treatment could be successful on other patients.

“This is only the beginning of a long and difficult journey,” he said.

‘Be very prudent’

The scientists involved think that the cells, implanted above and below the injury, enabled damaged fibres to reconnect, although other researchers have reacted more skeptically.

“What we’ve done is establish a principle — nerve fibres can grow back and restore function, provided we give them a bridge,” said Geoff Raisman, chair of neural regeneration at University College London’s Institute of Neurology, who led the British research team working on the joint project.

“To me, this is more impressive than a man walking on the Moon. I believe this is the moment when paralysis can be reversed.”

But other scientists were far more cautious, saying it was important to await the results of clinical testing with more cases.

“We have to be very prudent,” said Alain Privat from France’s health and medical research institute Inserm.