Girls’ and women’s lacrosse is a different game from the version played by males, said Joseph Crisco, the Henry Frederick Lippitt Professor of Orthopaedic Research in the Alpert Medical School of Brown University and a researcher at Rhode Island Hospital. Females wear far less protective equipment than males do, and injuries — especially severe head injuries — are comparatively rare. But recently the debate about whether female players should wear headgear has gained prominence.
Coming to blows
The girls delivered peak performance averaging 60 times the acceleration of Earth’s gravity (60g) when they struck the headforms with their lacrosse sticks.
“The goal of our study was to answer the question of what types of head accelerations would you see if you were hit in the head with a stick,” said Crisco, who used to coach his daughters in girls lacrosse and also sits on the Sports Science and Safety Committee of US Lacrosse, the national governing body of lacrosse.
To conduct the study, published online in the Journal of Applied Biomechanics, Crisco’s team asked seven female lacrosse players aged 12 to 14 to deliver at least 36 whacks each, as hard as they possibly could, to various places on two dummy headforms in the lab.
“The kinds of hits recorded were basically aggressive street fights,” Crisco said. “They were really whacking at it, every shaft was broken by the end of the study, which would never happen in a game. The goal was just to give US Lacrosse and the manufacturers some baseline information on the types of accelerations they could expect to see in a worst-case scenario.”
They used six different sticks, each outfitted with motion capture markers. The headforms had embedded accelerometers. In a second set of experiments the headforms donned one of four different kinds of protective headgear.
On average across 508 successful blows in the first experiment, the girls swung their sticks about 18 miles an hour, enough to complete two revolutions in less than a second. (One of Crisco’s prior studies showed, perhaps not surprisingly, that high school and college players swung their sticks even faster). The peak acceleration the girls delivered to the headforms when they struck them with the shafts of their sticks averaged 60 times the acceleration of Earth’s gravity (60g).
That’s about three times more force than, say, football players with the kind of celebratory head butt that teammates exchange after a big play, Crisco said.
Headgear dampens blows
The second set of experiments examined what effect headgear might have on the girls’ harder whacks (those with speeds around 23 miles an hour). Crisco’s team measured the accelerations delivered by 20 whacks from the shaft of each volunteer’s stick on both the back and the side of each headform. The headforms wore either nothing, a hard-sided men’s lacrosse helmet, a rugby scrum cap, mixed martial arts headgear, or soft headgear designed for girls’ and women’s field hockey and lacrosse.
The average peak accelerations measured on bare headgear were 81.6g for blows to the side and 150.7g for blows to the back. The men’s lacrosse helmet brought the average peak acceleration all the way down to 28.2g on the side and 23.1g on the back. The martial arts and girls lacrosse/field hockey headgear each reduced the accelerations significantly as well, but not nearly as much as the men’s helmet. The rugby cap failed to reduce acceleration for blows to the side but dampened blows to the back a little better than the martial arts or lacrosse/field hockey gear.
Headgear, therefore, significantly reduced head accelerations. But Crisco cautioned against a run on headgear at the sporting goods store based on the study.
Generally research has shown that helmets do not protect against concussion — only against skull fractures and traumatic brain injury. Indeed very little data connects accelerations to concussion risk, and individual susceptibility varies widely. Though some research hints at a figure around 100g, only the hard-sided men’s helmet brought accelerations for blows to the back significantly below that figure. And in many game situations, given how little other protective equipment female players wear, Crisco said, a hard-sided helmet could easily cause more injuries that it prevents.
“It could actually make the game more aggressive,” Crisco said.