Image of brain structures.

This image shows the overall brain structure of two individuals in the study while the brain on the right is from an individual with dementia, included for comparison. Neither the brain from the athlete who participated in contact sports nor the brain from the non-contact sports athlete has enlarged ventricles or atrophied hippocampus, both of which have been associated with dementia.

Study: No Evidence of EOD in 21 Retired NFL, NHL Players

Published October 11, 2018

Research by John J. Leddy, MD, clinical professor of orthopaedics, and Barry S. Willer, PhD, professor of psychiatry, did not find evidence of early-onset dementia (EOD) in a study of retired National Football League and National Hockey League players.

“We looked at 21 former professional football and hockey players with an average age of 56. Not one qualified as having early-onset dementia.”
Clinical professor of orthopaedics

Findings From UB’s Healthy Aging Mind Project

The study findings, from UB’s Healthy Aging Mind Project, were published online in August before print in the Journal of Head Trauma Rehabilitation. The study assessed 21 retired NFL and NHL players on neuropsychological measures associated with mild cognitive impairment and executive function.

Four papers were published: an overview paper plus three additional papers assessing cognitive changes, executive function and advanced brain imaging.

The study, which the researchers note involved “a relatively small sample of former athletes,” did not find evidence of EOD in the retired players, which would be expected with chronic traumatic encephalopathy (CTE). The comprehensive, case-control study is believed to be the first age-matched athlete comparison designed to identify in retired living athletes cognitive symptoms or imaging findings that would indicate the presence of EOD.

CTE Has Been Linked to History of Concussions

CTE in athletes has been linked to a history of concussive or subconcussive hits. The researchers’ overview paper notes: “…research to date on CTE based on pathological studies implies that most athletes who played contact sports professionally have a high probability of eventually experiencing CTE.”

Most athletes with CTE damage do experience EOD, although there is also some evidence that it may be possible to have CTE damage without clinical symptoms. The condition can only be diagnosed for certain after death.

“We don’t deny that CTE exists in some former athletes,” says Willer, lead investigator and co-author on the papers. “It has been linked to contact sports and concussions that happen while playing those sports, but it’s not a sure thing. The larger question is, how prevalent is the problem?”

Addresses Limitations on Previous Studies

The UB study was begun, in part, to address some limitations of previous studies on athletes and CTE. In pathological studies done at Boston University, CTE has been found in the brains of nearly all professional football and hockey players, many of whom had clearly exhibited dementia, and whose brains were donated for study by their families.

The assumption has been that CTE is a result of repetitive concussions and/or non-concussive hits sustained while playing sports. It has also been seen in the brains of much younger individuals. Investigators commenting on these post-mortem studies have cited selection bias and the lack of a control group — that is, donated brains from people who didn’t play contact sports — as important limitations.

Assessments Give Data About Living Athletes

In 2013, with assistance from UB faculty and graduate students at the Jacobs School, the School of Nursing and the School of Public Health and Health Professions, Willer and Leddy, his co-investigator, developed a series of assessments that could provide a comprehensive view of the extent to which each athlete was functioning.

“We designed the study so that when we discovered dementia we could also rule out or account for the myriad of other possible explanations for cognitive decline, such as mental health, lifestyle, eating habits, drug and alcohol abuse and so on,” Willer says.

The case-control study provides the first age-matched athlete comparison designed to identify in retired living athletes cognitive symptoms or imaging findings that would indicate EOD.

The assessments of cognitive function (memory, attention, visual spatial orientation), executive function (planning, organizing and completing tasks) and mental health in the retired athletes didn’t reveal statistically significant impairment compared to controls.

Average Age of Retired Players Was 56

Advanced brain imaging detected no microscopic or macroscopic brain tissue injury differences in retired athletes versus the controls. The non-contact sport athletes were found to have a higher rate of microbleeds in the brain, but these results only approached statistical significance.

“We looked at 21 former professional football and hockey players with an average age of 56. Not one qualified as having early-onset dementia,” Leddy says.

He noted that the athletes in the study had played an average of eight years in their professional leagues. Thus, they likely had plenty of opportunities to experience concussions. Information from the athletes themselves about how many concussions they remember experiencing was deemed unreliable and was not included in the study.

Researchers Work With Alumni of Bills, Sabres

To do the study, Willer and Leddy approached the local alumni organizations of the Buffalo Bills and Buffalo Sabres. Representatives of both alumni groups served on the advisory committee of the project.

The researchers found that the athletes had valuable insights on how to frame the research. They also discovered that many athletes were interested in the research, exhibiting concerns that they, themselves, might be showing early signs of dementia.

Twenty-one controls who engaged in non-contact sports were recruited from local swimming, cycling and running clubs. These age-matched control athletes were still actively participating in their sport, were significantly better educated and healthier and, on average, weighed 50 pounds less than the retired professional athletes.

Both groups underwent comprehensive neuropsychological testing designed to identify mild cognitive impairment, considered an early sign of dementia. They filled out questionnaires about executive function and personality and underwent advanced brain imaging through MRI. Family members were questioned about cognition and personality. Participants also provided information about diet, lifestyle, drug and alcohol use and cardiovascular risk factors. Blood samples were taken to assess cholesterol levels. Participants also underwent thorough physical exams.

Retired Athletes Had Major Health Problems

A key goal was to try to determine if symptoms signaling CTE  — specifically EOD — could be seen in retired professional athletes and how they compared with athletes who didn’t play a contact sport. The researchers also wanted to assist former players and their families in addressing changes they were experiencing as a result of aging.

The main finding was that there was no significant difference in brain imaging, cognition, behavior or executive function between the retired professional athletes and the controls. The biggest health differences that were detected between the professional athletes included significant risk for obesity, chronic pain and orthopedic surgeries, as well as significant problems with sleep and anxiety.

“We went into this study with the expectation that we’d find any number of former athletes with dementia,” Leddy says. “And while some of the former professional athletes reported concerns that they felt they were experiencing a decline in memory and other cognitive issues, the study results did not bear this out.”

“We did find the former athletes to be quite physically affected,” Leddy says. “Some of them have had knees or hips replaced, many are in chronic pain, they have arthritis and some are not just overweight but obese.” Sleep apnea also was reported by a number of the athletes.

More Research Needs to Be Done

Willer and Leddy — who are internationally known for their decades-long research on concussions — agree that much more research needs to be done, especially on a larger number of living athletes who played a contact sport professionally.

They are working on a $2 million National Institutes of Health grant issued in 2016 to determine what concussions do to both one’s body and brain, primarily looking at teenagers who have sustained a concussion during play. Leddy and Willer were previously funded by NFL Charities, the philanthropic foundation of the NFL, to determine an objective way to assess when athletes can safely return to play after a concussion.

Leddy is the director of the UB Concussion Management Clinic and sees patients through UBMD Orthopedics and Sports Medicine. Willer is the director of research for the UB Concussion Management Clinic.

This research was funded primarily by the Ralph C. Wilson Jr. Foundation. The research was also supported by funding from the Rich Family Foundation. Research reported in the publication on imaging was supported by the National Center for Advancing Translational Sciences of the National Institutes of Health under award number UL1TR001412.

6 Other Jacobs School Faculty Are Co-Authors

Other Jacobs School faculty who are co-authors on the studies are:

Other co-authors in the Jacobs School include:

  • Joel B. Durinka, MD, general surgery resident
  • Mohammad N. Haider, MD, research assistant in orthopaedics
  • Jesper Hagemeier, PhD, staff assistant in neurology
  • Deepa Preeti Ramasamy, staff assistant in neurology

Other co-authors are: Andrea L. Hinds, PhD; Jeffrey Miecznikowski, PhD, associate professor of biostatistics in the School of Public Health and Health Professions; Paul Polak; Jennifer M. Shucard, PhD, and Tania Sharma, PhD, both UB graduates; and Michael Tiso, MD, primary care sports medicine fellowship alumnus.