| UNH
Faculty Member Researches Face Mask Removal For Injured Football
Players
By Beth Potier, Media Relations
This fall, as more than a million high school football players take
to the gridiron, University of New Hampshire’s Erik Swartz
is focused on the worst-case scenario.
No, not losing the big game, but cervical spine (c-spine) injuries
that, while less frequent than muscle strains or concussions, can
result in paralysis or even death. Swartz, assistant professor of
athletic training, has become a leading authority on the speedy,
effective removal of face masks from players who sustain c-spine
injuries. His recent research, published in the American Journal
of Sports Medicine in August, points athletic trainers to the best
tool for this delicate job.
“If somebody has a neck injury, you want to leave the helmet
on but remove the face mask in case there’s a breathing emergency.
You want to do it as fast as possible, but you need to do it very
carefully,” Swartz says. With any spine injury, he notes,
motion can compound the damage.
Swartz’s research-- conducted with the assistance of UNH and
local high school certified athletic trainers and football players
as well as a six-camera video motion analysis system that provides
a three-dimensional view of the subjects--indicates that a cordless
screwdriver is the athletic trainer’s best tool for the speediest,
most still removal of an injured player’s face mask. Compared
to two specialized cutting tools, the Face Mask Extractor and a
bolt cutter look-alike called the Trainer’s Angel, a cordless
screwdriver removed a variety of face masks in nearly half the time
with the least amount of motion.
Although it focuses on a small set of screws on a football helmet,
Swartz’s research could have a broad impact. Football remains
the nation’s most popular high school sport, according to
the National Federation of State High School Associations; in New
Hampshire, 3,305 students played football in 2004-05. Cervical spine
injuries are among the most serious, sometimes resulting in paralysis
or even death. “As an athletic trainer, they were my greatest
fear,” Swartz says.
When Swartz began his research as a Ph.D. student at the University
of Toledo in the late 1990s, cutting tools were athletic trainers’
implement of choice for face mask removal. A redesign of a popular
football helmet style in 2002 rendered these cutting tools virtually
ineffective in removing some face masks. So Swartz returned to the
lab for a series of studies funded by the National Operating Committee
on Standards for Athletic Equipment (NOCSAE). His first study compared
tools on eight different styles of helmets with a variety of face
mask and loop-strap combinations. “No matter what the condition
was, the screwdriver was what we recommended as the best tool,”
he says.
Next, Swartz set out to explore anecdotal evidence that screwdrivers
can fail on the field when faced with well-worn helmets and rusty
screws. Working with helmet reconditioning plants around the country,
his research group collected face mask removal data on 2,584 helmets
from 44 high school teams at the end of a season of wear and tear,
sweat, and foul weather.
“Some schools, all the face masks came off with the screw
driver. Some teams, we had a failure rate as high as 40 to 50 percent,”
Swartz says. “It really opened our eyes to what the state
of helmets can be.”
Swartz’s current research takes his group out of the lab and
onto the field of Saint Anselm College in Manchester, where they
are removing the face masks of players selected at random throughout
the season to discern whether the screwdriver’s effectiveness
diminishes as the season progresses.
His research on face mask removal may allow NOCSAE to set standards
or guidelines for football helmet design, screw composition, and
helmet maintenance, and for athletic trainers to select the best
tool for the delicate job of removing a face mask from a player
with a c-spine injury. “My hope is that we’re able to
convince people that their first choice should be a cordless screwdriver,”
Swartz says.
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