Safety through better rules and coaching

Although the research has been crucial in in helping teams choose quality equipment to protect their players, helmets are actually the least important factor in reducing concussions and limiting the cumulative effect of non-concussive impacts.

Encouraging young engineers The pushpins stuck in maps outside the Center for Injury Biomechanics' helmet lab are testament to how its research is spreading around the world. Just as importantly, they also highlight its education outreach to diverse pools of budding engineers. One pin is lodged in the hometown of an eighth-grade girl who asked the lab to give advice on wrestling headgear she had designed. Others represent aspiring science fair contestants who have asked for help with football or cycling helmets. Some even drove their creations to Blacksburg for testing. "I also get emails from California and all over. It's a great opportunity for them," said Abi Tyson, a research associate who is evaluating wearable head impact sensors, but also took over the lab's outreach initiatives after demand grew in the past couple of years. In addition, the lab has taken a role in Center for the Enhancement of Engineering Diversity (CEED) summer programs designed to increase the diversity of students in the College of Engineering, as well as increase the awareness of engineering and other technical fields as a career for a diverse population. "Experiences such as these are critical for both students and teachers," said Kim Lester, coordinator of pre-college programs for the College of Engineering. "Bringing them to the lab and having them work with graduate students allows them to picture themselves as college students. Many of the Imagination students come from Martinsville and inner-city Roanoke, where they may have had little exposure STEM careers." "It's important to foster this kind of excitement and learning," said Tyson, who is working to expand the outreach to be more proactive. "It's been really fun." Toy-safety research Professors Stefan Duma (left) and Steven Rowson study children swinging swords, research that helps toy manufacturers design products that are unlikely to cause injuries. Learn more about the toy-safety research in Duma's lab →

"There are three things that have to be done," Duma said. "The first and most important is league rules; the second is coaching technique; and the third layer is equipment."

In a small, groundbreaking study in 2012, the researchers monitored several players on the Auburn Eagles, a team of 7- and 8-year-olds in Montgomery County, Virginia. In a single season, Duma was surprised to record dozens of hits at more than 40 g and six impacts of more than 80 g (98 g is generally considered potential concussion level), the vast majority of them made during practice.

As a direct result of the study, the Pop Warner youth football league announced new rules banning full-speed, head-on tackling drills, as well as limiting contact during practice. Following the rule changes, head impacts in these young players dropped from an average of 300 to 150 annually, Duma said.

"If you know what scenarios carry the highest risk, you can start to design interventions based on that data," Rowson said. "The word is out that the one thing you can control is the practice structure. Our research has led to these kinds of changes."

The youth research has continued with a five-year, multi-university, $3.3 million National Institutes of Health-funded study that will follow young players in three states using improved head and mouthguard sensors.

"We're trying to understand how to make the game safe, but more broadly understand brain injury biomechanics in the youth population," Duma added.

VTCRI joins the team

In 2014, Duma and Rowson, with their biomechanics expertise, and Brolinson, with his clinical talents, joined with the neuroimaging wizardry of Assistant Professor Stephen LaConte at the Virginia Tech Carilion Research Institute (VTCRI). Together, the team earned one of four prized spots in the Advanced Research Core of a $30 million NCAA and Department of Defense (DoD) effort to combat concussions in athletes and active military personnel. "You really have to have all these components if you want to be in the top tier," Duma said.

LaConte had been working at Baylor Medical College of Medicine in Houston when he was intrigued by research possibilities in Roanoke. Some of his research sponsors, including the DoD, were concerned that he couldn't gather enough patients for his studies. The opposite has been true. "Actually, my recruitment numbers have improved," LaConte said. "Carilion has certainly been a very important piece for me."

LaConte is an innovator in using functional magnetic resonance imaging (fMRI), which can capture patterns of thought by measuring minute changes in blood flow in the brain.

"fMRI allows you to take a movie of the brain in action," LaConte said. "We're trying to track healing and restructuring over time, just like any other wound healing — like watching a bruise or a cut on your skin heal over time or repeating X-rays to track a broken bone."

If researchers working together can characterize what recovery looks like for individual brains, a process not possible today, that could be used to better determine when it's safe for an athlete to return to play or a serviceman or woman to his or her job, LaConte said.

"It's a multidisciplinary project," Brolinson said, "and that's how you solve a really big problem."

Helmets, more helmets … and drones

Recently, the research team has moved into the global market, developing tests to rate helmets for cycling, which is the leading cause of concussions worldwide, and soccer headgear. The team is also reviewing the value of the numerous sensors that have appeared on the market in recent years.

"Our research is moving into every helmeted sport worldwide — lacrosse, equestrian, baseball, soccer, field hockey," Duma said. "The things we did to make our cars safer, we're using to make our helmets safer. … We want to provide that basic education."

"I think we've really moved the needle on sports safety," said Brolinson. "This has been tremendously exciting and gratifying to be involved in."

That philosophy is also moving into the rapidly expanding field of small unmanned aircraft. Many promising applications for drones, like package delivery, would require the aircraft to fly over people, but such flights are currently prohibited for safety reasons. Collaborating with the Virginia Tech Mid-Atlantic Aviation Partnership, which runs the university's test site for unmanned aircraft systems, Duma and Rowson are developing experimental methods that can assess injury risk.

"We have a very unique and impressive team that starts with the cooperation and support of our coaches and athletes," said Duma. "It took 10 years of hard work to get here, and our partnership is paying off."