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Professional football is a physically demanding activity. Thus, players are required to regularly perform repetitive actions at high velocity, such as kicks, dribbles and sprints,[7] as part of the game. All these actions require players to maintain their body’s posture while performing them.[7] The latter involves a large number of muscles and joints. These actions are, in part, responsible for the high injury rate of football players, accounting for up to 40% of all injuries reported in professional footballers.[85] The present study aimed to compare positional differences in acceleration and sprint profiles from five playing positions in professional football match-play. Specifically, positional differences were analysed based on start speed required to perform high-intensity (ACCAVG >1.5 m·s−2) and low-intensity (ACCAVG ≤1.5 m·s−2) accelerations as well as high-intensity (DECAVG >4 m·s−2) and low-intensity (DECAVG ≤4 m·s−2) decelerations during a medium-length professional football match.
Fourteen professional football players (seven forwards, four midfielders, two defenders, and one goalkeeper) were tested over thirteen competitive microcycles in a professional football team from La Liga 123. The players performed seven kicks, three throw-ins, three shot-ins, three set-plays (goal kicks, corners, and free kicks), ten shots on goal, one free kick, and nine dribbles. Each session was recorded in a different match and comprised a total of 54 high-speed actions (kicks, throw-ins, shoot-ins, corners, set-plays, shots on goal, free kick, and dribbles). Players wore global positioning system (GPS) devices to accurately record the position of players in five sets of three dimensions (x, y, and z).
Players were categorised based on the playing position: central defender (CD), full-back (FB), forward (FW), midfielder (MF), and wide midfielder (WMF). In respect of acceleration profile, positional differences were found for all variables (p < 0.05), apart from average magnitude of accelerations (ACCAVG, p = 0.56) and decelerations (DECAVG, p = 0.76). d2c66b5586