Jessica Wallace1, Tracey Covassin2, Ryan Moran3, Jamie McAllister Deitrick4. 1. Youngstown State University, 1 University Plaza, 307L Beeghly Center, Youngstown, OH, 44555, USA. jwallace02@ysu.edu. 2. Michigan State University, 105 IM Circle, East Lansing, MI, 48824, USA. 3. University of Alabama, Tuscaloosa, AL, USA. 4. Coastal Carolina University, Conway, SC, 29528, USA.
Abstract
BACKGROUND: National Collegiate Athletic Association (NCAA) concussion guidelines state that all NCAA athletes must have a concussion baseline test prior to commencing their competitive season. To date, little research has examined potential racial differences on baseline neurocognitive performance among NCAA athletes. The purpose of this study was to investigate differences between Black and White collegiate athletes on baseline neurocognitive performance and self-reported symptoms. METHODS: A total of 597 collegiate athletes (400 White, 197 Black) participated in this study. Athletes self-reported their race on the demographic section of their pre-participation physical examination and were administered the Immediate Post-Concussion Assessment and Cognitive Test (ImPACT) neurocognitive battery in a supervised, quiet room. Controlling for sex, data were analyzed using separate one-way analyses of covariance (ANCOVAs) on symptom score, verbal and visual memory, visual motor processing speed, and reaction time composite scores. RESULTS: Results revealed significant differences between White and Black athletes on baseline symptom score (F (1,542) = 5.82, p = .01), visual motor processing speed (F (1,542) = 14.89, p < .001), and reaction time (F (1,542) = 11.50, p < .01). White athletes performed better than Black athletes on baseline visual motor processing speed and reaction time. Black athletes reported higher baseline symptom scores compared to Whites. There was no statistical difference between race on verbal memory (p = .08) and that on visual memory (p = .06). CONCLUSIONS: Black athletes demonstrated disparities on some neurocognitive measures at baseline. These results suggest capturing an individual baseline on each athlete, as normative data comparisons may be inappropriate for athletes of a racial minority.
BACKGROUND: National Collegiate Athletic Association (NCAA) concussion guidelines state that all NCAA athletes must have a concussion baseline test prior to commencing their competitive season. To date, little research has examined potential racial differences on baseline neurocognitive performance among NCAA athletes. The purpose of this study was to investigate differences between Black and White collegiate athletes on baseline neurocognitive performance and self-reported symptoms. METHODS: A total of 597 collegiate athletes (400 White, 197 Black) participated in this study. Athletes self-reported their race on the demographic section of their pre-participation physical examination and were administered the Immediate Post-Concussion Assessment and Cognitive Test (ImPACT) neurocognitive battery in a supervised, quiet room. Controlling for sex, data were analyzed using separate one-way analyses of covariance (ANCOVAs) on symptom score, verbal and visual memory, visual motor processing speed, and reaction time composite scores. RESULTS: Results revealed significant differences between White and Black athletes on baseline symptom score (F (1,542) = 5.82, p = .01), visual motor processing speed (F (1,542) = 14.89, p < .001), and reaction time (F (1,542) = 11.50, p < .01). White athletes performed better than Black athletes on baseline visual motor processing speed and reaction time. Black athletes reported higher baseline symptom scores compared to Whites. There was no statistical difference between race on verbal memory (p = .08) and that on visual memory (p = .06). CONCLUSIONS: Black athletes demonstrated disparities on some neurocognitive measures at baseline. These results suggest capturing an individual baseline on each athlete, as normative data comparisons may be inappropriate for athletes of a racial minority.
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