Autumn 2017
There is growing evidence linking football and brain disease.
These findings not only affect the health and well-being of professional players and their families, they have also left parents questioning whether they should prohibit their children from playing football and other contact sports. Enter the Football Players Health Study at Harvard University, the largest and most comprehensive study of living former players, with more than 3,700 participants to date. Together, Harvard researchers are focusing on overall player health, including prevention, diagnostic, and treatment strategies for the most common and severe conditions affecting professional football players. These include neurological issues—chronic traumatic encephalopathy (CTE), concussion, mental illness, and memory loss—as well as ACL tears, arthritis, heart conditions, musculoskeletal injuries, pain, and inflammation.
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According to the Director of the Football Player’s Health Study, Alvaro Pascual-Leone, MD, PhD, who is also the associate dean for clinical and translational research at Harvard Medical School, and chief of the Division of Cognitive Neurology at Beth Israel Deaconess Medical Center (BIDMC), the question of football’s impact on the brain can only be answered by studying the whole person. “Brain health is the number one step toward overall health. We cannot think of the brain as an isolated organ that’s disconnected from the heart or joints. We need to understand how specific injuries interact with other organs in such a way that they affect the player’s overall health,” he says.
A host of factors ranging from exercise routines and muscle-building activities to size and risks for diseases, like hypertension and diabetes, are important considerations for understanding the complex interaction between football’s destructive aspects and beneficial ones and uncovering why some players develop problems and others do not.
One pioneering study has uncovered a direct link among traumatic brain injury (TBI), Alzheimer’s disease, and CTE. Led by co-senior author Kun Ping Lu, MD, PhD, chief of the Division of Translational Therapeutics at BIDMC and professor of medicine at HMS, and Xiao Zhen Zhou, MD, assistant professor of medicine at BIDMC, the study shows that just hours after TBI, a protein known as tau can become misshapen at the site of injury in brain cells, triggering a cascade of destructive events leading to widespread brain damage.
One pioneering study has uncovered a direct link among traumatic brain injury (TBI), Alzheimer’s disease, and CTE.
In response, the research team has developed a potent antibody that selectively detects and destroys the toxic protein and restores brain function in mice that have experienced TBI. “The dream scenario, though we’re nowhere near it yet, would be to give an injection or tablet to prevent the brain damage,” says Pascual-Leone.
In the long term, pursuing basic and translational research on the underpinnings of football-related brain injury is an important step in treating injuries. The Football Players Health Study is looking to identify specific molecular and cellular conditions that follow injury and make causal links between these biological events and the manifestation of symptoms in the clinic. Investigators hope that a sophisticated characterization of concussion sequelae will propel better diagnostics and point to better targets for therapeutic intervention that may repair acute injury sooner and prevent chronic disease onset.
The significance of the Football Players Health Study extends well beyond the gridiron. Accident victims, troops injured in explosions, people with Alzheimer’s disease, and other neurodegenerative diseases, and youngsters across the country who love the sport stand to benefit greatly from the research.
“Your lifestyle impacts your health, whether you play football or not. If we are able to understand how specific lifestyles impact the health of specific individuals, we will learn something that will benefit former and current football players, future generations of professional athletes, and all of us, regardless of our professions,” says Pascual-Leone.
Orna Feldman is a freelance science writer based in Massachusetts.
The Harvard Mahoney Neuroscience Institute hosts a public lecture series to continue its efforts to educate the public on the latest scientific discoveries in neuroscience and translate how these discoveries are relevant in our daily lives.
Since its founding in 1990, the Harvard Mahoney Neuroscience Institute has helped advance neuroscience at Harvard Medical School by promoting public awareness of the importance of brain research and by helping to fund research at the School's Department of Neurobiology.
