Authors

  1. Charek, Daniel B. PhD
  2. Elbin, R. J. PhD
  3. Sufrinko, Alicia PhD
  4. Schatz, Philip PhD
  5. D'Amico, Nathan R. MS, ATC
  6. Collins, Michael W. PhD
  7. Kontos, Anthony P. PhD

Abstract

Objective: To investigate a dose-response relationship between continuing to play following concussion and outcomes.

 

Participants: A total of 130 athletes (age 11-19 years).

 

Design: Repeated-measures design comparing symptoms, neurocognitive performance, and recovery time between 52 athletes immediately removed from play (Removed), 24 who continued to play for 15 minutes or less (Short-Play), and 32 who continued to play for more than 15 minutes (Long-Play).

 

Main Measures: Recovery was the number of days from injury to clearance. Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT) measured neurocognitive outcomes and the Post-Concussion Symptom Scale (PCSS) measured symptom severity.

 

Results: Long-Play (44.09 +/- 27.01 days) took longer to recover than Short-Play (28.42+/-12.74 days) and Removed (18.98 +/- 13.76 days). Short-Play was 5.43 times more likely, and Long-Play 11.76 times more likely, to experience protracted recovery relative to Removed. Both Play groups had worse neurocognitive performance and higher symptom scores than Removed at days 1 to 7, with Long-Play demonstrating worse reaction time than Short-Play. At days 8 to 30, both Play groups performed worse than Removed on visual memory and visual motor speed, while only Long-Play performed worse on verbal memory and reaction time.

 

Conclusions: Results provide initial evidence of a dose-response effect for continuing to play on recovery from concussion, highlighting the importance of removal from play.