Smart Football Helmets and Concussion

It's the end of August, and a young man's fancy turns to the NFL. The NFL's thoughts, however, remain mired in that concussion scandal that is not going away anytime soon. College, high school and younger league football players (and their parents) are also becoming more concerned about the apparent high risk of concussion in their favorite sport.

Hope may be just a short couple of yards away. A smart helmet that can help diagnose concussions in football players is being developed by medical students at Texas Tech University Health Sciences Center El Paso (TTUHSC El Paso).

“Concussions that go undiagnosed are a huge health problem, especially for football players,” says second-year TTUHSC El Paso medical student Derrick Oaxaca. “It is very common for athletes to remain in the game after experiencing concussion-like symptoms, receiving more impacts to the head — and that is when the brain becomes significantly damaged.”

Scientists don’t know the exact force that will unequivocally result in a concussion.

But recent research shows that a combination of data from the blow can help doctors make a more accurate diagnosis. These impact measurements — rotational acceleration, linear force or acceleration, duration of impact and location of impact — will each be recorded by the helmet’s sensors to provide a full medical assessment.

This innovative technology has landed the entrepreneurs spots as semi-finalists in the Space Race, a international start-up competition hosted by NASA and the Center for Advancing Innovation (CAI). The team details their research in the journal Neurosurgery.

Athletes who resume playing in a sporting event before fully healing after a concussion can experience permanent brain damage, and even death. This happens quite often; nearly one-third of athletes have sustained a concussion that went undiagnosed and risked further brain injury.

Using the smart helmet, the team hopes players of all ages will be taken off the field immediately after a hit, instead of continuing to participate while injured.

“Parents will be alerted, too,” Oaxaca explains. “Imagine a mom or dad receiving a smartphone notification that their child just received a blow to the head. They’re going to be concerned about safety and ensure their child receives proper medical attention.”

The goal is for the product to eventually be sold in athletic stores or directly to athletic programs, such as high school sports teams, under the name Minus Tau.

Tau is a protein that forms in the brain when someone experiences a concussion, or any form of brain damage. Today, many retired NFL football players who experienced repetitive head injuries during their careers suffer from chronic traumatic encephalopathy, a degenerative brain condition tied to dementia, suicide and depression. Studies have shown high levels of tau in these players’ brains, prompting scientists to suspect that tau buildup is linked to increased risk of developing a brain disorder.

The team named the technology Minus Tau in an effort to raise awareness about the condition, and hopes to eventually minimize these cases. Oaxaca explains, “We want to prevent tau buildup in the brains of our athletes; we want to subtract it from the whole equation.”