Understanding the Real Risks of Head Injuries Through Technology

Monday - January 1 2024, 17:34 UTC - 10 months ago

New measuring devices and sensors are being developed to detect head impacts and help protect soldiers and athletes from brain damage. The Impact Monitoring Mouthguard (IMM), developed by Prevent Biometrics, is being used to study Parachute Landing Falls (PLFs), finding that over 5% of jumps result in significant head impacts, about 30 times the published level of concussion in paratroopers.

When athletes or soldiers have a concussion, the most beneficial course of action is to simply get them off the playing field or out of the action so they can recover. Yet much about head injuries remains a mystery, including the reasons why some impacts result in concussion while others don’t.

But new measuring devices are being developed that could help deliver a wealth of information about head impacts. By giving an immediate warning that a person needs to be removed from action or play, they could help protect soldiers and athletes alike from brain damage.

Appreciation of the real risks of head injuries has been a long time coming. "Even 10 years ago, if someone took a big hit they were told to get up and play or keep going," says Mike Shogren, CEO of Prevent Biometrics. "Now reducing major head impacts and understanding concussion risk is a major focus in sports and the military." .

Prevent is one of several companies developing new sensors to precisely measure and record head impacts, which would help identify possible concussions and provide data for studies of cumulative effects.Scientists have been trying to measure the forces involved in head trauma for a long time, says Adam Bartsch, the company’s chief science officer. "Decades ago, scientists had to use Rube Goldberg contraptions to study head impact," he says. "Sometimes these were made from a dental mold with a rigid plate and sensors bigger than dice, with a 10-meter-long cable connecting it to a computer. The wearer would drool and the data wasn’t perfect, but it was the best they had." .

First conceived at the Cleveland Clinic, Prevent’s device, the Impact Monitoring Mouthguard (IMM), fits into the wearer’s mouth, working as both a monitoring tool and a functional mouthguard. It calculates the force, location, direction, and number of impacts and can then transmit data via Bluetooth to other devices for assessment.

Prevent is using the IMM to study parachute landing falls (or PLFs), a landing technique that was developed by the United States Army as part of its paratrooper training program, using over 2,000 paratroopers as subjects. A correctly executed PLF absorbs the shock of hitting the ground as the parachutist lands feet first and falls sideways, successively distributing the landing shock along the calves, thighs, hips, and back. But an error can whip the parachutist’s head backwards and onto the ground. The IMM’s sensors revealed that this occurs far more often than anyone realized.

"We found a significant head impact in about 5% of jumps," says Bartsch. "That’s about 30 times as much as the published incidence of concussion in paratroopers." A battery of tests confirmed that the events the mouthguard registered as possibly causing concussions had in fact done so. Paratroopers tend to just get up and carry on after a bad landing, so the official figures had previously reflected only the injuries of those who were physically unable to get up on their own.