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 Modifying and eliminating certain high-intensity drills could reduce
head hits, concussions and injuries at both the youth and
professional levels of football, the study authors write in the
Journal of Neurosurgery: Pediatrics.
“The majority of the head impacts an athlete receives are from
practice,” said senior author Jillian Urban of the Wake Forest
School of Medicine in Winston-Salem, North Carolina.
“However, our understanding of head impact exposure within on-field
activities, such as practice drills, is limited,” she told Reuters
Health by email. “This research . . . can help inform coaches,
organizations and leagues about methods to restructure practice.”
Head impacts can lead to concussions and symptoms such as headache,
dizziness, nausea and amnesia. Past studies have also suggested that
even sub-concussive impacts may contribute to changes in cognitive
skills and physical brain changes seen among youth, high school and
college-level players, the authors note.
To understand how often and how hard youth players experience head
impacts in practice, Urban and colleagues recruited a team belonging
to the American Youth Football league to participate in the study.
Players wore sensors on their helmets to measure impacts and
acceleration, and researchers videotaped all practices during the
preseason, regular season and playoffs. The study team identified 11
types of drills the players used in practice, including dummy/sled
tackling, one-on-one, open-field tackling, passing, position skill
work, multiplayer tackle and scrimmage.
They recorded 2,125 impacts among nine athletes during 30 practices.
The number of head impacts each player experienced during the season
ranged from a low of 83 to a high of 459, with a median of 231.
Open-field tackling, a one-on-one tackling drill with starting
positions more than three yards apart, had the highest average head
acceleration and produced the hardest hits.
The multi-player tackle drill, a blocking drill that involves
several athletes, had the highest number of hits but among the
lowest-magnitude impacts.
A tackling drill known as Oklahoma, involving two-on-two or
three-on-three maneuvers, had the second highest number of impacts.
Only the dummy/sled tackling drill had no head impacts.
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Overall, researchers found, head impact was most common at the front
of the head.
During the practices, a certified athletic trainer monitored the
players for concussions, and none of the impacts resulted in a
diagnosed concussion. Only two muscle strain injuries were recorded
during the practices.
“We need to ask ourselves - is it more important to reduce the high
number of severity impacts associated with a drill, or is it more
important to target reducing higher severity impact? The answer may
be both,” Steven Rowson of Virginia Tech and State University in
Blacksburg, Virginia, who wasn’t involved with the study, said by
email.
In 2012, Heads Up Football, a USA Football safety program, and Pop
Warner Little Scholars, one of the largest youth football programs
in the U.S., eliminated full-speed head-on blocking or tackling
drills with players more than three yards apart. They also
restricted contact at practice to either 40 minutes or one-third of
the total weekly practice time. The Pop Warner changes still allow
full-speed drills where athletes approach each other at an angle,
rather than straight on, which is similar to the open-field tackling
drill in this study.
“Much of the debate surrounding head impact in sports lacks solid
data to inform the discussion,” Dr. Jason Druzgal of the University
of Virginia School of Medicine in Charlottesville said by email.
“Having a way to objectively measure head impact allows decisions
about regulating practices to be made on real data, rather than on
speculation and fear.”
Some drills that cause more head impact than others, such as
one-on-one tackles, may be obvious, even to casual observers, said
Druzgal, who wasn’t involved in the study. Helmets used in studies
like these accurately measure head impact, but the technology can’t
yet be used as a “concussion detector,” he said.
SOURCE: http://bit.ly/2jQOkmu Journal of Neurosurgery: Pediatrics,
online September 12, 2017.
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