The research activity carried out by the FSI Sport Research Lab continues to contribute to the creation and development of scientific knowledge in soccer. Here you can watch a video summary of one of our last publications, explained by Jose Asian, member of FSI lab, teacher at FSI Faculty and Head of Performance at Real Betis Balompie Academy.
High-speed Training in a Specific Context in Soccer: Transition Games
Asian Clemente JA, Rabano-Muñoz A, Requena B, Suarez-Arrones L.
Int J Sports Med 2022 Jun 7. doi: 10.1055/a-1794-9567.
The aims of this study were to compare the load of three tasks designed to train features of soccer: a transition game, a small-sided game with a change of playing area, and a large-sided game. Twenty young elite players performed these tasks. Variables measured were total distance covered (DC), distance covered at 14.0-17.9 km·h-1 (DC 14.0-17.9 km·h-1), distance covered at 18.0-21 km·h-1 (DC 18-21 km·h-1), distance covered > 21 km·h-1 (DC>21 km·h-1), peak speed, accelerations and decelerations > 1.0 and > 2.5 m·s-2, player load, and rate of perceived exertion. Transition games produced greater DC 18-21 km·h-1, DC>21 km·h-1, peak speed and Acc>2.5 m·s-2 than the other drills (p<0.01) and higher DC 14-17.9 km·h-1 (p<0.01), Dec>1 m·s-2 (p<0.05) and Dec>2.5 m·s-2 (p<0.01) than the large-sided game. Both sided games produced more DC (p<0.01), Acc>1 m·s-2 (p<0.01) and player load (p<0.01 and p<0.05, respectively) than the transition game. During the small-sided game, significantly higher DC 14-17.9 km·h-1, DC 18-21 km·h-1 and DC>21 km·h-1 were recorded in comparison with the large-sided game (p<0.01). The studied parameters showed lower variation in the transition game. Coaches could use transition games to train high speed running in counter-attack contexts.
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