Rugby study shows metabolite changes in the brain
January 17, 2018
Researchers at Robarts Research Institute have shown that a regular season of play can cause changes in the brain that are similar to changes caused by concussion, though less severe. Using sophisticated Magnetic Resonance Spectroscopy the researchers looked at metabolite levels in the brains of female varsity rugby players at the beginning of their season, after suffering a concussion, and again at the end of the season.
“What we found is that the players that had suffered a concussion during the season had a large reduction in the level of a metabolite called glutamine,” said Robert Bartha, PhD, professor at Western’s Schulich School of Medicine & Dentistry and Scientist at Robarts Research Institute. “We also showed that players that didn’t have a concussion had a similar but smaller reduction of this metabolite called glutamine, when we looked at their baseline measures compared to their after-season measures.”
Glutamine is an important part of the glutamate neurotransmission cycle in the brain and a reduction in glutamine suggests there may be a shift in this glutamate-glutamine cycle. “Glutamine is a very interesting metabolite because it is involved in a number of different processes in the brain,” said Bartha. “Glutamine is also a byproduct of glucose metabolism, so lower glutamine could be the result of lower glucose metabolism. Under some conditions it can also be used as an energy substrate, so if the brain needs a lot of energy, it can use some of the glutamine to power the cells.”
The other finding was that these metabolite changes persisted even after the clinical scores for concussion had returned to normal and the athletes were cleared to return to play. The study authors suggest that these metrics may be more sensitive to brain injury and could aid in assessing recovery of brain injury from concussion.
By studying the athletes at baseline before the season began, Bartha, and PhD candidate Amy Schranz were able to compare the subjects to themselves instead of to a control group, allowing them to see very subtle changes.
“We studied the female varsity rugby team here at Western University and that team was chosen in particular because females are underreported in the literature,” said Schranz. “We followed this team for five seasons and that allowed us to collect data on over 50 individuals, which included over 20 concussions across 15 individual players.”
The study was published in the January edition of the journal Human Brain Mapping.