Condition detected two
weeks after concussion, when players said they felt ok
University of British
Columbia
Detailed scans of
concussed university hockey players found that the protective fatty tissue
surrounding brain cell fibers was loosened two weeks after the injury -- even
though the athletes felt fine and were deemed ready to return to the ice.
A loosening of that
insulation, called myelin, slows the transmission of electrical signals between
brain cells, or neurons.
Researchers have previously shown in animals that this loosened myelin can completely deteriorate with subsequent blows -- a condition that resembles the neurodegenerative disease multiple sclerosis.
Researchers have previously shown in animals that this loosened myelin can completely deteriorate with subsequent blows -- a condition that resembles the neurodegenerative disease multiple sclerosis.
"This is the
first solid evidence in humans that concussions loosen myelin," said Alex
Rauscher, an Associate Professor in the Department of Pediatrics and the Canada
Research Chair in Developmental Neuroimaging at the University of British
Columbia. "And it was detected two weeks after the concussion, when the
players said they felt fine and were deemed ready to play through standard
return-to-play evaluations. So athletes may be returning to play sooner than
they should."
Published this month in Frontiers in Neurology, this is the third study arising from the unusual before-and-after study of UBC hockey players.
The 45 athletes had their brains scanned with magnetic resonance imaging (MRI) before the season began; if they were concussed, they were re-scanned three days afterwards, two weeks afterwards, and two months afterwards. Eleven athletes were concussed during the season, and most of them underwent the additional MRI scans.
Conventional MRI
imaging -- the kind done in hospitals to assess brain injury -- does not reveal
myelin loosening. Rauscher and postdoctoral research fellow Alex Weber used
advanced digital analysis of the scans, using a UBC-developed, pixel-based
statistical analysis to find changes that visual inspection could not reveal.
Previous analysis of
the concussed athletes' scans, published by Rauscher in 2016, had shown changes
to the myelin in the corpus callosum -- the part of the brain that helps the
brain's two hemispheres communicate, and is most susceptible to damage from
sudden collisions against the interior of the skull. But the researchers didn't
know whether the myelin was diminished, akin to multiple sclerosis, or altered
in some other way.
The good news is that
it was something else -- a temporary loosening around the nerve fibers that
connect brain cells. When the concussed players were re-scanned two months
after their concussions, their myelin had returned to normal.
But Weber says the
findings provide a convincing reason to keep concussed athletes on the bench
even if they no longer exhibit any symptoms, as measured by a standard test of
cognitive abilities, balance, coordination and mood.
"These results
show that there is some damage happening below the surface at least two weeks
after a concussion," Weber says. "Passing a concussion test may not
be a reliable indicator of whether their brain has truly healed. We might need
to build in more waiting time to prevent any long-term damage."
