Study from Indiana University aims to better understand repetitive head impacts in sports

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Credit: Photo provided by Indiana University


BLOOMINGTON, Ind. — A new study by Indiana University researchers has found that eyeball and eyelid movement, or oculomotor function, which is used to detect symptomless brain injury, can be impaired by mild, repetitive head impacts in football players. But the function may adapt mid-season, even as athletes continue to incur head impacts.

“Repetitive subconcussive head impacts have quickly become one of the most complex public health issues,” said Kei Kawata, assistant professor at the IU School of Public Health-Bloomington, who lead the study published in JAMA Ophthalmology. “While various research finds insidious effects of repetitive subconcussive head impacts, we found unique oculomotor response to head impacts and realized that we still have much more to learn about brain response to trauma.”

Head injuries in sports remain a focus of researchers throughout the world. Much of this work focuses on understanding repetitive subconcussive head impacts — hits that don’t meet the criteria for a concussion diagnosis but still may have long-term effects. The goal is to identify a “safe” threshold for subconcussive brain injury that does not necessarily trigger immediate symptoms, such as headache, dizziness and disorientation.

The study, a collaboration between Kawata and Steve Zonner, a sports medicine physician in Washington Township Medical Foundation, measured the near point of convergence — the measurement of the closest point of focus before double vision occurs — in more than a dozen high school football players over one season.

Near point of convergence was measured 14 times: a baseline measurement; a pre- and post-game measurement during six in-season games; and post-season follow-up. Players experienced more than 8,000 recorded hits over this period, and the researchers found a significant increase (up to 33 percent) in near point of convergence resulting from subconcussive head impact frequency, up to the middle of the football season.

However, near point of convergence began to move back toward the baseline measurement from mid-season on, even though players continued to experience subconcussive head impacts.

“Based on our previous studies, we thought that near point of convergence would be impaired throughout the entire season,” Kawata said. “Instead, near point of convergence was normalized to the baseline by the last quarter of the season, when players play their hardest to make it to the playoff stage.”

The researchers conclude that, while near point of convergence is one of the most prevalent clinical assessments for concussions, further study is necessary to determine whether it is the best tool in tracking long-term subconcussive brain damage.

Kawata and his partners are planning a larger-scale, longitudinal study to further investigate the use of oculomotor function testing on repetitive subconcussive head impacts.

“Our study further lays the groundwork for understanding the usefulness — and limitations — of convergence as a clinical biomarker for understanding acute and chronic subconcussion,” Zonner said. “When evaluating the severity of brain damage, it is important to assess not only oculomotor function but also other neurological variables including fluid biomarkers and neuroimaging in the ultimate goal of brain injury prevention.”

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Other researchers who took part in the study include Keisuke Ejima, Megan Huibregtse and Zachary W. Bevilacqua all of IU Bloomington; Ciara Fulgar of the University of California; and Carmen Charleston of the Division of Washington Sports Medicine, Irvington High School.

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Original Source

https://news.iu.edu/stories/2018/12/iub/releases/20-study-aims-to-better-understand-repetitive-head-impacts-in-sports.html

Related Journal Article

http://dx.doi.org/10.1001/jamaophthalmol.2018.6193

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