November 22, 2024

Not Concussions: Scientists Unveil Real Drivers of CTE in Football

The largest research study of persistent terrible encephalopathy (CTE) in football gamers to date has found that the threat of CTE is not driven by the number of identified concussions, but rather by the cumulative number and strength of head impacts. The research study, utilizing an unique tool called a positional exposure matrix (PEM), recommends that lowering both the frequency and force of head effects in practice and video games could reduce the chances of professional athletes developing CTE.
Scientists from Mass General Brigham and Boston University have developed a new tool that has created the first-ever playbook to avoid chronic distressing encephalopathy.
Does the amount of concussions sustained by a football player increase their probability of establishing Chronic Traumatic Encephalopathy (CTE)? In the most extensive research study of CTE carried out yet, which examined 631 deceased football gamers, researchers discovered that the variety of diagnosed concussions alone was not associated with CTE risk.
Instead, the chance of a football player establishing CTE was discovered to be linked to both how numerous head impacts they received and how difficult the head effects were.

The study, performed by researchers at Mass General Brigham, Harvard Medical School, and Boston University (BU), was released today in Nature Communications.
It used an innovative brand-new tool called a positional direct exposure matrix (PEM) that manufactured information from 34 independent research studies to approximate the number and severity of football players head impacts over their professions.
” These outcomes offer added evidence that repeated non-concussive head injuries are a significant motorist of CTE pathology instead of symptomatic concussions, as the ordinary and medical literature frequently suggests,” stated research study senior author Jesse Mez, MD, MS, Associate Professor at the BU Chobanian and Avedisian School of Medicine and Co-Director of Clinical Research at the BU CTE Center.
The brand-new data could provide football with a playbook to avoid CTE in future and current gamers, according to scientists.
” This research study recommends that we could minimize CTE danger through changes to how football players practice and play,” stated study lead author Dan Daneshvar, MD, PhD, Assistant Professor at Harvard Medical School and Physician at Mass General Brigham affiliate Spaulding Rehabilitation. “If we cut both the variety of head impacts and the force of those hits in practice and video games, we could decrease the chances that athletes develop CTE.”
The scientists used the brand-new PEM tool to approximate the cumulative number of head effects, and the cumulative linear and rotational accelerations associated with those impacts, based on the positions and levels athletes played throughout their football profession.
The study discovered that cumulative recurring head effect (RHI) exposure was related to CTE status, CTE intensity, and pathologic burden in the football gamers. Furthermore, the research study discovered that designs using the strength of effects were much better at anticipating CTE status and severity than designs utilizing duration of play or variety of hits to the head alone.
The PEM is a valuable tool that scientists can make use of to improve research studies on dangers of football play. By utilizing the PEM in future research studies, researchers might take a look at other prospective effects of RHI direct exposure beyond CTE to get a much better understanding of the specific kinds of RHI that are most likely to trigger these problems.
” Although this research study was restricted to football players, it likewise offers insight into the effect characteristics most accountable for CTE pathology beyond football, since your brain doesnt care what strikes it,” stated Daneshvar. “The finding that approximated lifetime force was connected to CTE in football players most likely is true for other contact sports, military direct exposure, or domestic violence.”
A limitation of the research study is that it made use of a convenience sample of football-playing brain donors who tended to have greater direct exposure to RHI than the general population of football players. A considerable number of donors had lower direct exposures, so the findings can still be theorized to most football gamers.
Reference: “Leveraging football accelerometer information to quantify associations in between recurring head effects and persistent distressing encephalopathy in males” by Daniel H. Daneshvar, Evan S. Nair, Zachary H. Baucom, Abigail Rasch, Bobak Abdolmohammadi, Madeline Uretsky, Nicole Saltiel, Arsal Shah, Johnny Jarnagin, Christine M. Baugh, Brett M. Martin, Joseph N. Palmisano, Jonathan D. Cherry, Victor E. Alvarez, Bertrand R. Huber, Jennifer Weuve, Christopher J. Nowinski, Robert C. Cantu, Ross D. Zafonte, Brigid Dwyer, John F. Crary, Lee E. Goldstein, Neil W. Kowall, Douglas I. Katz, Robert A. Stern, Yorghos Tripodis, Thor D. Stein, Michael D. McClean, Michael L. Alosco, Ann C. McKee and Jesse Mez, 20 June 2023, Nature Communications.DOI: 10.1038/ s41467-023-39183-0.
The study was supported by grants and financing from the National Institutes of Health, Department of Veterans Affairs, Department of Defense, the Alzheimers Association, the Nick and Lynn Buoniconti Foundation, the Concussion Legacy Foundation, the Adlinger Foundation, World Wrestling Entertainment Inc
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