Effects of a maximal exercise test on neurocognitive function * Commentary

doi:10.1136/bjsm.2006.032334

Published Online First: 15 January 2007. doi:10.1136/bjsm.2006.032334
British Journal of Sports Medicine 2007;41:370-374

ORIGINAL ARTICLE

Effects of a maximal exercise test on neurocognitive function

Tracey Covassin¹, Leigh Weiss¹, John Powell¹ and Christopher Womack²

¹ Michigan State University, Michigan, USA
² James Madison University, Harrisonburg, Virginia, USA

Correspondence to:
Correspondence to:
Dr T Covassin
Michigan State University, Department of Kinesiology, 105 IM Sport Circle, East Lansing Michigan 48824, USA; covassin{at}msu.edu

Objective: To examine the effects of a maximal exercise teston cognitive function in recreational athletes.

Design: A repeated-measures design was used to compare baselinewith post-cognitive function and fatigue symptoms after a maximalexercise test.

Setting: Division 1 American Midwestern University, (MichiganState University, Michigan, USA).

Participants: 102 male and female recreational athletes.

Intervention: Participants in the experimental group (n = 54)were asked to perform a maximal treadmill exercise test to maximaloxygen uptake (VO₂ max). Participants in the control group wereasked to rest for 15 min.

Main outcome measurements: All participants were administereda neuropsychological test battery called Immediate Post-ConcussionAssessment and Cognitive Testing (ImPACT) before and after exerciseto measure neurocognitive function and fatigue symptoms.

Results: Results revealed a significant group (control, experimental)xtime(baseline, post-test 1, post-test 2) interaction for verbalmemory composite scores (p = 0.025). Specifically, verbal memorycomposite scores decreased in the experimental group from baselineto post-test 1 (p = 0.00). These values returned to baseline3 days after the VO₂ max test (p = 0.00). Further analysis onverbal memory composite scores demonstrated significant differenceson immediate recall memory (p = 0.00) and delayed recall memory(p = 0.00). No significant differences were observed for visualmemory (p = 0.54), motor processing speed (p = 0.68) and reactiontime (p = 0.44) composite scores between the experimental andcontrol groups.

Conclusion: The results of this study suggest that a maximalexercise test attenuated a limiting effect on cognitive function.When utilising a neuropsychological test battery to evaluatea patient who has sustained a head injury, the test should notbe administered immediately after a practice or a game session.

Abbreviations: imPACT, Immediate Post-Concussion Assessment and Cognitive Testing; VO₂ max, maximal oxygen uptake

Commentary

Mark R Lovell³

³ University of Pittsburgh, Pittsburgh, Pennsylvania, USA; lovellmr{at}upmc.edu

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