Mild TBI linked to eye movement impairment
March 30, 2016
Science Daily/Uniformed Services University of the Health Sciences (USU)
Mild traumatic brain injuries (TBI) could be linked to eye movement impairment, even beyond the acute stage of injury, according to researchers. These findings indicate a potentially more effective way to identify long-term chronic effects on those with mild TBI.
In this USU-funded study, researchers, led by Mark Ettenhofer, Ph.D., assistant professor in USU's Department of Medical and Clinical Psychology, examined saccadic (rapid eye movement) impairments among 27 participants with remote mild TBI and 54 healthy controls. A newly-developed computerized tool assessed visual attention and neuromotor performance, using saccadic and manual (button-press) responses to target stimuli. Those who had a history of multiple mild TBIs, or high levels of neurobehavioral symptoms, were most likely to have saccadic eye movement impairment.
Researchers compared this 15-minute eye movement test with a two-hour battery of conventional neuropsychological measures. Their findings suggest saccadic impairment could help reveal chronic effects of mild TBI that traditional methods are unable to detect. This study is among the first to demonstrate eye movement measures may detect impairment among mild TBI patients who appear unimpaired using conventional assessment tools. Follow-on research is currently underway to evaluate this technology within a larger group of TBI patients and controls.
"The tests that are typically used to assess brain injury can be impacted by non-neurological factors, such as test-taking effort, mood, or pre-injury ability," said Ettenhofer. "Most of these tests rely on our hands or our vocal systems, to press a button, write an answer, or speak a response. However, our eyes offer a much more direct pathway to the brain. By using eye movements, we may be able to cut through a lot of this 'noise' and separate those who fully recover after injury from those who experience more chronic problems."
https://www.sciencedaily.com/releases/2016/03/160330094715.htm