Scientists Inch Closer Toward Using Stem Cells for Spinal Injuries

Posted: August 9, 2014 at 3:46 am

By Amy Norton HealthDay Reporter

THURSDAY, Aug. 7, 2014 (HealthDay News) -- In a step toward using stem cells to treat paralysis, scientists were able to use cells from an elderly man's skin to regrow nerve connections in rats with damaged spinal cords.

Reporting in the Aug. 7 online issue of Neuron, researchers say the human stem cells triggered the growth of numerous axons -- the fibers that extend from the body of a neuron (nerve cell) to send electrical impulses to other cells.

Some axons even reached the animals' brains, according to the team led by Dr. Mark Tuszynski, a professor of neurosciences at the University of California, San Diego.

"This degree of growth in axons has not been appreciated before," Tuszynski said. But he cautioned that there is still much to be learned about how the new nerve fibers behave in laboratory animals.

Tuszynski likened the potential for stem-cell-induced axon growth to nuclear fusion. If it's contained, you get energy; if it's not contained, you get an explosion.

"Too much axon growth into the wrong places would be a bad thing," Tuszynski said.

For years, researchers have studied the potential for stem cells to restore functioning nerve connections in people with spinal cord injuries. Stem cells are primitive cells that have the capacity to develop into various types of body tissue. Stem cells can come from embryos or be generated from cells taken from a person.

For their study, Tuszynski's team used so-called induced pluripotent stem cells. They took skin cells from a healthy 86-year-old man and genetically reprogrammed them to become similar to embryonic stem cells.

Those stem cells were then used to create primitive neurons, which the researchers embedded into a special scaffold created with the help of proteins called growth factors. From there, the human neurons were grafted into lab rats with spinal cord injuries.

Read more:
Scientists Inch Closer Toward Using Stem Cells for Spinal Injuries

Related Posts

Comments are closed.

Archives