Litcius/Paper detail

Neurocognitive functioning and symptoms across levels of collision and contact in male high school athletes

Jessie R. Oldham, David R. Howell, Corey Lanois, Paul D. Berkner, Grant L. Iverson, Rebekah Mannix, William P. Meehan

2022Journal of Neurology Neurosurgery & Psychiatry11 citationsDOIOpen Access PDF

Abstract

Objective We sought to determine whether male collision sport athletes perform worse on computerised neurocognitive assessments and report higher symptom burdens than athletes in contact (but not collision) sports and athletes in non-contact sports. Methods This cross-sectional study used data collected by the Massachusetts Concussion Management Coalition on high school boys who underwent computerised neurocognitive testing between 2009 and 2018. We divided sports participation in three different sport types: (1) collision, (2) contact, non-collision and (3) non-contact. Our outcomes included the four computerised neurocognitive composite scores (verbal memory, visual memory, visual motor speed and reaction time) and the total symptom score. The independent variable was sport type (collision, contact, non-contact), adjusted for age, concussion history and comorbidities. Results Of the 92 979 athletes (age: 15.59±2.08 years) included in our study, collision sport athletes performed minimally but significantly worse than other athletes on neurocognitive composite scores (verbal memory: β=−1.64, 95% CI −1.85 to –1.44; visual memory: β=−1.87, 95% CI −2.14 to –1.60; visual motor speed: β=−2.12, 95% CI −2.26 to –1.97; reaction time: β=0.02, 95% CI 0.02 to 0.02). Collision and contact sport athletes also had slightly but significantly lower total symptom scores (collision: 3.99±7.17; contact: 3.78±6.81; non-contact: 4.32±7.51, p<0.001, η 2 =0.001) than non-contact sport athletes. Conclusion There are minimal observed differences in performance on neurocognitive assessments between collision sport, contact sport and non-contact sport athletes. The repetitive subconcussive head impacts associated with collision sport participation do not appear to negatively affect self-reported symptoms or neurocognitive functioning in current youth athletes.

Topics & Concepts

NeurocognitiveAthletesConcussionVerbal memoryCollisionMedicineVisual memoryPhysical therapyPsychologyPhysical medicine and rehabilitationInjury preventionPoison controlCognitionPsychiatryComputer securityMedical emergencyComputer scienceTraumatic Brain Injury ResearchStroke Rehabilitation and RecoverySport Psychology and Performance