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Longer, Intense Rehabilitation Boosts Recovery After Brain Injury

Animal studies suggest greater emphasis for better results and highlight key role of brain system in rebuilding structure and function

February 22, 2016  |  

​Cognitive and functional recovery after a stroke or traumatic injury requires intense rehabilitative therapy to help the brain repair and restructure itself. New findings by researchers at University of California, San Diego School of Medicine report that not only is rehabilitation vital – in an animal model, rats with cortical injury that did not receive intensive rehab did not rebuild brain structure or recover function – but that a longer, even more intense period of rehabilitation may produce even greater benefit.

neurons

A cultured neuron in green with hundreds of protruding dendritic spines. The dendrites of other neurons labeled in blue, with adjacent glial cells depicted in red.

“This has implications for medical practice and medical insurance,” said senior study author Mark Tuszynski, MD, PhD, professor in the Department of Neurosciences and director of the Center for Neural Repair at UC San Diego School of Medicine, and a neurologist with the VA San Diego Healthcare System. “Typically, insurance supports brief periods of rehab to teach people to get good enough to go home. These findings suggest that if insurance would pay for longer and more intensive rehab, patients might actually recover more function.”

The findings are published in the February 22 online early edition of PNAS.

In recent years, numerous studies have documented the surprising plasticity or ability of the adult central nervous system to recover from injury. The emerging question has been how to best encourage the repair and regrowth of damaged nerve cells and connections.

To better understand what happens at the molecular and cellular levels and how rehabilitation might be made more effective after brain injury, researchers studied rats relearning skills and physical abilities. They found rats that received intensive therapy for an extended period of time showed significant restructuring of the brain around the damage site: Surviving neurons sprouted greater numbers of dendritic spines, which made more connections with other neurons. The result, said Tuszynski, was a dramatic 50 percent recovery of function.

Animals that did not undergo intensive rehabilitation did not rebuild brain structure or recover function.

Additionally, the researchers found that a key system in the brain – the basal forebrain cholinergic system – is critical to rehabilitation. Structures in this part of the brain, such as the nucleus basalis, produce acetylcholine, a chemical released by nerve cells to send signals to other cells. Specifically, motor neurons release acetylcholine to activate muscles.

Damage to the cholinergic system, which can occur naturally during aging, completely blocks brain plasticity mediated by rehabilitation and significantly reduces functional recovery. Tuszynski said the finding suggests that a class of drugs called cholinesterase inhibitors, which boost the levels and persistence of acetylcholine and are used in some treatments for Alzheimer’s disease, might further improve functional outcomes after brain injury.

“We did not try to do this in our study,” said Tuszynski, “but we did suggest future studies could be done to look at this possibility.”

Co-authors include Ling Wang, James M. Conner, and Alan H. Nagahara, all at UC San Diego.

Funding for this research came, in part, from the National Institutes of Health (grant AG10435), the Veterans Administration and the Dr. Miriam and Sheldon G. Adelson Medical Research Foundation.




Media Contact

Scott LaFee
858-249-0456
slafee@ucsd.edu

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