A key question the study seeks to answer is: are the effects of sub-concussive hits identifiable through blood-based molecular information? "Based on our current information, we believe this study will have the unique ability to provide a molecular 'risk' and 'recovery' score, enabling physicians to better identify when a player might be expected to recover from the effects of the concussion and get back on the field," said Dr. Kendall Van Keuren-Jensen, TGen Assistant Professor, whose technique for studying molecular information at a micro level will drive the research.
While the joint study will begin with football, the Riddell-TGen partnership has the potential to improve sports equipment manufactured by brands in the broader Easton-Bell Sports portfolio, including headgear for hockey, baseball, cycling, snowsports, and powersports. "As the awareness of head injury grows across all sports, supporting science like this will help us offer a more protective helmet solution to the athlete," said Arment.
Local Institutes and Advocate to Join Study
As part of the study, TGen will work with the Barrow Neurological Institute whose B.R.A.I.N.S. (Barrow Resource for Acquired Injury to the Nervous System) program treats patients who have sustained a traumatic brain or spinal cord injury.
"Combining our neurological expertise and the information from our B.R.A.I.N.S. program, with TGen's genomic knowledge and Riddell's helmet technology, will provide great insight into how we measure concussions and how they affect the human brain," said Dr. Javier Crdenas, a neurologist and brain injury
|Contact: Steve Yozwiak|
The Translational Genomics Research Institute