Study reveals link between playing contact sports and parkinsonism in individuals with chronic traumatic encephalopathy

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Contact: Gina DiGravio, 617-224-8962, ginad@bu.edu

Study Reveals Link Between Playing Contact Sports and Parkinsonism in Individuals with Chronic Traumatic Encephalopathy

Most Parkinson’s disease-like symptoms may be caused by CTE pathology, not classic Parkinson’s disease

Boston — The largest study of CTE to date has found a new link between playing contact sports, chronic traumatic encephalopathy (CTE), and the development of a movement disorder known as parkinsonism.

The study of 481 deceased athletes by researchers at Boston University Chobanian and Avedisian School of Medicine and VA Boston Healthcare, published today in JAMA Neurology, reveals that most individuals with CTE developed parkinsonism, and CTE pathology appears to driving the parkinsonism symptoms in most cases.

Parkinsonism is a condition characterized by symptoms similar to Parkinson's disease such as tremor, abnormal slowness of movements, or abnormal stiffness of one’s arms or legs. It long has been associated with traumatic brain injury (TBI) and CTE in boxers. However, the specific pathologies underlying these symptoms in CTE were unknown.

Parkinson’s disease is classically associated with the buildup of proteins called Lewy bodies in brain cells, but researchers found that 76% of individuals with CTE and Parkinsonism did not have Lewy body pathology.

“We were surprised to find that most individuals with CTE and parkinsonism did not have Lewy body pathology,” observed Thor Stein, MD, PhD, associate professor of pathology & laboratory medicine at BU and VA Boston Healthcare, and one of the corresponding authors of the study. “Rather,”  Stein explained, “subjects with parkinsonism were more likely to have more severe CTE-related brain cell death in a region of the brainstem important for controlling movement.”

CTE is a degenerative brain disease whose only known cause is repetitive head impacts, like those encountered in contact sports. A 2018 study by the same research team found that duration of contact sports play is associated with and increased odds of developing Lewy body disease. However, the present study is the first to describe a link between contact sport participation, brainstem pathology, and parkinsonism in CTE.

“Increased CTE severity has been shown to be associated with longer duration of play,” noted Daniel Kirsch, an MD/PhD student at BU and one of the first authors of the study. “In this study, we found that an additional eight years of contact sport play was associated with 50% increased risk of more severe disease in a specific area of the brainstem that controls movement.”

The subjects of the study had donated their brain to the Understanding Neurologic Injury and Traumatic Encephalopathy (UNITE) brain bank. Those with parkinsonism were compared to those without to identify the types of pathologies that may explain why some individuals with CTE develop these symptoms and to examine relationships with duration of contact sports play.

This study underscores the importance of understanding the long-term effects of repetitive head impacts and the need for preventive measures in contact sports to mitigate the risk of neurodegenerative diseases like CTE and parkinsonism.

These findings appear online in the journal JAMA Neurology: doi:10.1001/jamaneurol.2024.2166

About the BU CTE Center

The BU CTE Center is an independent academic research center at Boston University Avedisian & Chobanian School of Medicine. It conducts pathological, clinical and molecular research on CTE and other long-term consequences of repetitive brain trauma in athletes and military personnel. For people considering brain donation, click here. To support its research, click here.

Funding for this study was provided by the Department of Veterans Affairs, Veterans Health Administration, Clinical Sciences Research and Development Merit Award (I01-CX001038); Veterans Affairs Biorepository (BX002466); Alzheimer’s Association (NIRG-305779, NIRG-362697); National Institute of General Medical Sciences (5T32GM007198-49); National Institute of Aging (RF1AG054156, R56AG057768, RF1AG057768, K23AG046377); National Institute of Neurological Disorders and Stroke (U54NS115266, U01NS086659, K23NS102399, F31NS127449); Boston University AD Center (P30AG13846; supplement 0572063345-5); Department of Defense Peer Reviewed Alzheimer’s Research Program (PRARP #13267017); and the Concussion Legacy Foundation. This work was also supported by gifts from the Nick and Lynn Buoniconti Foundation, the Andlinger Foundation, and World Wrestling Entertainment.