Lindsey Straus Lindsey Straus Brooke de Lench Brooke de Lench   IN: What's New, Top Stories, Prevention & Risk Reduction, Effects of Concussion and Repetitive Head Impacts   Tagged: , , , , , , , , ,  
  • Lindsey Straus

    Author: Lindsey Straus is an award-winning youth sports journalist, practicing attorney, and has been Senior Editor of SmartTeams since its launch as MomsTEAM in August 2000. She can be reached at

  • Lindsey Straus
  • Brooke de Lench

    Author: Executive Director of MomsTEAM Institute, Founder and Publisher,, Producer of The Smartest Team: Making High School Football Safer. Follow Brooke on Twitter @brookedelench. Email her at

  • Brooke de Lench

Impact Sensors: A Missing Piece of Head Injury Programs

If there has been one area in which I have devoted more of my energy and passion as a youth sports safety expert and Executive Director of MomsTEAM/SmartTeams for the past eighteen years, it is has been in trying to reduce the risk of short- and long-term brain injury to athletes in contact and collision sports.

One of the ways I have long believed contact and collision sports can be made safer is through the use of impact sensors – most of which are small, highly sophisticated electronic devices embedded in mouth guards, chin straps, skull caps, ear buds, skin patches, or attached to the interior or exterior of helmets which transmit data via Blue Tooth connection on the number and force of head impacts athletes sustain during games or practices to a dedicated monitor, iPhone, iPad or laptop on the sports sideline.  

About six or seven years ago, I started to hear about companies which were bringing to market impact sensors for use at the youth, high school, and college level; sensors that, while not as sophisticated as the ones used for research – which cost upwards of $1,000 per player – could be used to alert sideline personnel to athletes who sustained hits hard enough to cause concussion so they could be evaluated for concussion, and to identify athletes whose poor technique caused them to sustain an unusually large number of subconcussive impacts, the cumulative effect of which research has increasingly linked with a greater risk the athlete will develop a chronic, degenerative neurological disease such as chronic traumatic encephalopathy (CTE).

In 2012, when I was asked by the high school football program in Newcastle, Oklahoma for help in implementing an evidence-based concussion risk management program, I saw a perfect opportunity to beta test two of the new impact sensors, which the manufacturers, Impact Protective and i1 Biometrics, donated for installation in some of the Newcastle players’ helmets.

My experience during the filming of MomsTEAM’s PBS documentary, The Smartest Team: Making High School Football Safer, convinced me that they had value as a technological end run around the chronic problem of under-reporting by athletes of concussion symptoms.  From talking candidly with the players after a duck-hunting trip (next to playing football, their favorite activity), I learned that they actually wanted to wear the sensors. Why? Because they knew that, if they took a heavy hit, it would register on the iPad the athletic trainer or his assistant was holding on the sideline.  Knowing that they would be checked out if the sensor alerted sideline personnel to a blow with the potential to cause a concussion, they felt more comfortable, if they began experiencing concussion symptoms, reporting symptoms to the AT without fear of being labeled a wimp by their teammates or the coach.

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