Spine Injury Breakthrough: Paralyzed Man Stands, Moves
Paraplegic Man Regains Voluntary Movement With Implanted Device, Rehab
May 19, 2011 - Rob Summers can't walk -- yet. But he can do something no other person paralyzed with a devastating spinal cord injury ever has done: He can stand up from his wheelchair when he wants to.
"Being able to stand for first time was both emotional and exciting. After years of seeing no gains or recovered function, I was able to see my hard work pay off. It was as rewarding as anything I have ever done in my life," Summers said at a news teleconference.
He does it with the help of a pacemaker-like device that sends a gentle electric current through 16 electrodes implanted in his spine. The device doesn't make his muscles move -- he does. This "epidural stimulation" excites the neurons in his spine, allowing them to receive and react to sensory information from his legs.
These results are being hailed as "unprecedented in spinal cord injury medicine," a "breakthrough," and as "going to make a major impact" by spine-injury experts not directly linked to the study by Susan Harkema, PhD, of the University of Louisville, Ky., and colleagues.
"What we have found here is a new set of mechanisms that have never been taken advantage of in a therapeutic way," Harkema said at a news conference held to announce the findings. "It opens a whole new set of possibilities for patients, not just those recently injured but those who have been injured for months and years."
Hard Work Leads to Success
The breakthrough did not happen overnight. It's the result of more than 30 years of animal research by a number of scientists. Prominent among them is Harkema's mentor and study partner, University of California, Los Angeles researcher V. Reggie Edgerton, PhD.
"When Rob regained voluntary control of his leg, I was afraid to believe it when I saw it," Edgerton said at the news conference. "What nobody has ever demonstrated is that epidural stimulation at modest levels enables an individual to have conscious control of body motion. Someone with paralysis for several years can now control his movement. This has never been done before."