-- Robert Preidt
FRIDAY, Feb. 14, 2014 (HealthDay News) -- Pro football players
are about one-third less likely to suffer concussions when playing
at higher altitudes, a new study suggests.
The researchers also found that new helmet designs and rule
changes have not done much to reduce concussions in the NFL.
They analyzed data gathered during the NFL regular seasons in
2012 and 2013, and found that players' risk of concussion was 30
percent lower when they played in the nine league cities with the
highest altitudes, ranging from about 650 feet to about 5,200 feet
above sea level.
The cities included Atlanta, Buffalo, Charlotte, Denver,
Indianapolis, Kansas City, Minneapolis Phoenix and Pittsburgh.
The researchers said many concussions in football players are
believed to be caused by so-called "brain slosh." The brain doesn't
fit tightly inside the skull, and is damaged when it moves around
violently as a result of a hit to the head.
But higher altitudes cause increased blood flow to the brain,
which makes it fit more tightly inside the skull. This reduces the
risk of concussion, said the authors of the study, which was
published recently in the
Journal of Orthopaedic and Sports Physical Therapy.
Although the study found an association between altitude and
concussion risk, it did not prove a cause-and-effect link.
"If we're going to solve this problem, we have to figure out a way to protect the brain from the inside out," study author Greg Myer, director of sports medicine research at Cincinnati Children's Hospital Medical Center, said in a center news release. "That's why we think we might be on the front edge of something that could influence a paradigm shift in concussion-prevention strategies."
Myer and his colleagues also said new helmet designs and rule
changes have not reduced NFL players' concussion risk.
"Our brains already have a natural protective shield. Our skull is the brain's natural helmet," Myer said. "What modern helmets do very well is protect our skulls from fractures and lacerations."
"The concept of adding more weight and padding to a helmet ... can create more acceleration and leverage on the head, which can increase the risk of injury," he said. "From a physics perspective, helmet designs do not appear to offer effective solutions to prevent concussions. You're still going to have the brain sloshing inside the head."
"We're exploring approaches where we might be able to protect the brain from the inside out," Myer said. "The question we need to answer is whether or not there is a way we can do this."
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