Former National Football League (NFL) players who started playing tackle football before the age of 12 were found to have a higher risk of altered brain development compared to those who started playing at a later age. The study is the first to demonstrate a link between early exposure to repetitive head impacts and later life structural brain changes.
Led by researchers at Boston University School of Medicine (BUSM) and Brigham and Women’s Hospital (BWH), the study appears online in the Journal of Neurotrauma.
The researchers examined 40 former NFL players between the ages of 40-65 who had more than 12 years of organized football participation, with at least two years at the NFL level. Half of the players participated in tackle football before the age of 12 and half began at age 12 or later. The number of concussions sustained was similar between the two groups. All of these players experienced at least six months of memory and thinking problems.
“To examine brain development in these players, we used an advanced technique called diffusor tensor imaging (DTI), a type of magnetic resonance imaging that specifically looks at the movement of water molecules along white matter tracts, which are the super-highways within the brain for relaying commands and information,” explained study co-author, Inga Koerte, MD, professor of neurobiological research at the University of Munich and visiting professor at BWH, Harvard Medical School.
The results showed that the research participants who started playing football before age 12 were more likely to have alterations of the white matter tracts of the corpus callosum, the largest structure of the brain that connects the two cerebral hemispheres.
According to the researchers there is growing evidence that there is a “critical window” of brain development between ages 10-12, when the brain may be especially susceptible to injury. “Therefore, this development process may be disrupted by repeated head impacts in childhood possibly leading to lasting changes in brain structure,” explained lead author Julie Stamm, PhD, currently a post-doctoral fellow at the University of Wisconsin School of Medicine and Public Health, who conducted this study as part of her doctoral dissertation at BUSM, and who was funded by the National Institutes of Health (NIH).
While the study shows there may be a neurodevelopmental window susceptible to repeated head impacts, such as those experienced playing tackle football, the authors underscore the fact that this is a small study with just 40 individuals, and results cannot be generalized to individuals who did not go on to play professional football. “The results of this study do not confirm a cause and effect relationship, only that there is an association between younger age of first exposure to tackle football and abnormal brain imaging patterns later in life,” said senior author Martha Shenton, PhD, professor and director, Psychiatry Neuroimaging Laboratory, Department of Psychiatry, BWH, Harvard Medical School.
This study was conducted as part of the Diagnosing and Evaluating Chronic Traumatic Encephalopathy using Clinical Tests (DETECT) project, funded by NIH, under the leadership of Robert Stern, PhD, professor and director of the Boston University Alzheimer’s Disease and CTE Center’s Clinical Core. Stern, who is corresponding author on this publication, cautions that, “these abnormal neuroimaging findings are not necessarily indicative of chronic traumatic encephalopathy or CTE,” referring to the neurodegenerative disease that is associated with a history of repetitive head impacts and has been diagnosed post-mortem in numerous former football players. “While this study adds to the growing concern that exposing children to repetitive hits to the head in tackle football may have long lasting consequences, there are likely other contributing factors that contribute to overall risk for CTE,” added Stern.
Previous research by the same investigators showed that there was a difference in former NFL players’ cognitive functions depending on whether they started playing before or after age 12, with the former group at a higher risk of developing mood, behavioral or cognitive impairment later in life. In both studies, the authors caution that more investigation into later-life consequences of childhood exposure to repetitive head impacts is necessary, and that the ultimate goal is to increase safety in youth sports, thus allowing young athletes to take advantage of the tremendous benefits of sports participation without increased risk of long-term negative health consequences.
About this neurology research
Funding: The study was supported by the National Institutes of Health, (R01 NS 078337 [RAS]; F31 NS 081957 [JMS]; P30 AG13846 [RAS]; UL1-TR000157, P41 EB015902 [OP]), and participant travel was funded by gifts from JetBlue Airlines, the National Football League (NFL), and the NFL Players Association. This study was also partly supported by the Else Kröner-Fresenius Foundation, Germany (IK, MM), and by a VA Merit Award (MES, MC, LL, AZ).
Source: Gina DiGravio – Boston University Medical Center Image Source: The image is credited to Andreashorn and is licensed CC BY-SA 4.0 Original Research:Abstract for “Age at First Exposure to Football is Associated with Altered Corpus Callosum White Matter Microstructure in Former Professional Football Players” by Julie M. Stamm, Inga Katharina Koerte, Marc Muehlmann, Ofer Pasternak, Alexandra P Bourlas, Christine M. Baugh, Michelle Y Giwerc, Anni Zhu, Michael J Coleman, Nathan G Fritts, Brett Martin, Christine Chaisson, Michael D McClean, Alexander P Lin, Robert C. Cantu, Yorghos Tripodis, Robert Stern, Martha E Shenton in Journal of Neurotrauma. Published online July 22 2015 doi:10.1089/neu.2014.3822
Age at First Exposure to Football is Associated with Altered Corpus Callosum White Matter Microstructure in Former Professional Football Players
Youth football players may incur hundreds of repetitive head impacts (RHI) in one season. Our recent research suggests that exposure to RHI during a critical neurodevelopmental period prior to age 12 may lead to greater later-life mood, behavioral, and cognitive impairments. Here we examine the relationship between age of first exposure (AFE) to RHI through tackle football and later-life corpus callosum (CC) microstructure using magnetic resonance diffusion tensor imaging (DTI). Forty retired National Football League (NFL) players, ages 40-65, were matched by age and divided into two groups based on their AFE to tackle football: before age 12 or at age 12 or older. Participants underwent DTI on a 3 Tesla Siemens (TIM-Verio) magnet. The whole CC and five subregions were defined and seeded using deterministic tractography. Dependent measures were fractional anisotropy (FA), trace, axial diffusivity and radial diffusivity. Results showed that former NFL players in the AFE <12 group had significantly lower FA in anterior three CC regions and higher radial diffusivity in the most anterior CC region than those in the AFE ≥12 group. This is the first study to find a relationship between AFE to RHI and later-life CC microstructure. These results suggest that incurring RHI during critical periods of CC development may disrupt neurodevelopmental processes, including myelination, resulting in altered CC microstructure and greater vulnerability to aging processes. "Age at First Exposure to Football is Associated with Altered Corpus Callosum White Matter Microstructure in Former Professional Football Players" by Julie M. Stamm, Inga Katharina Koerte, Marc Muehlmann, Ofer Pasternak, Alexandra P Bourlas, Christine M. Baugh, Michelle Y Giwerc, Anni Zhu, Michael J Coleman, Nathan G Fritts, Brett Martin, Christine Chaisson, Michael D McClean, Alexander P Lin, Robert C. Cantu, Yorghos Tripodis, Robert Stern, Martha E Shenton in Journal of Neurotrauma. Published online July 22 2015 doi:10.1089/neu.2014.3822