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Mental Fatigue Impairs Tackling Technique in Amateur Rugby Union Players.

Authors :
Davidow, Demi
Smith, Mitchell
Ross, Tayla
Laura James, Gwyneth
Paul, Lara
Lambert, Michael
Jones, Ben
Hendricks, Sharief
Source :
International Journal of Sports Physiology & Performance; Sep2023, Vol. 18 Issue 9, p960-967, 8p, 1 Diagram, 3 Graphs
Publication Year :
2023

Abstract

Purpose: To test the effects of mental fatigue (MF) on tackling technique on the dominant and nondominant shoulders in rugby union. Methods: Twenty male amateur rugby union players and a total of 953 tackles were analyzed. A randomized crossover counterbalanced design was used across a non-MF (control) and an MF condition. During each condition, each player performed 24 tackles, divided into 4 sets of 6 tackles (3 tackles on each shoulder). In the MF condition, players performed the Stroop Task between each set of tackles. A video recording of each tackle was used to evaluate each player's technical proficiency. A score of 1 point was awarded if a specific technique was performed correctly, and 0 point was given if not. The total score, measured in arbitrary units (AU) out of 11, represents the player's overall tackling proficiency. Results: Overall, players displayed a significantly lower technical proficiency score in the MF condition compared to control (set 2: control 7.30 [7.04–7.57] AU vs MF 6.91 [6.70–7.12] AU, P =.009, effect size (ES) = 0.30 small and set 3: control 7.34 [7.11–7.57] AU vs MF 6.88 [6.66–7.11] AU, P =.002, ES = 0.37 small). For the nondominant shoulder, players had a significantly lower technical proficiency score during the MF condition at set 2 (control 7.05 [6.68–7.41] AU vs MF 6.69 [6.42–6.96] AU, P =.047, ES = 0.29 small) and set 3 (control 7.14 [6.83–7.45] AU vs MF 6.61 [6.35–6.87] AU, P =.007, ES = 0.49 small). Conclusions: MF can diminish a player's overall tackling proficiency, especially when tackling on the nondominant shoulder. The physiological mechanism for this finding may be impaired executive function and suboptimal functioning of neural signals and pathways, which result in less skillful coordination of movement. To further understand and explain MF-induced physiological changes in tackling, the feasibility of monitoring brain activity (such as electroencephalogram) and neuromuscular function (such as electromyogram) needs to be investigated. The findings from this study may also contribute to the development of more effective tackle training programs for injury prevention and performance. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
15550265
Volume :
18
Issue :
9
Database :
Complementary Index
Journal :
International Journal of Sports Physiology & Performance
Publication Type :
Academic Journal
Accession number :
170407483
Full Text :
https://doi.org/10.1123/ijspp.2023-0159