Aerobic fitness of elite soccer players linked to player positions: Study
Ontario: In a recent study, researchers have linked the fitness of elite soccer players to the positions they play.
The study, named ‘Relationship between aerobic fitness and metabolic power metrics in elite male soccer players’ was published in the journal ‘Biology of Sport’.
It was led by Vincenzo Manzi (Universita Telematica Pegaso), and co-authored by Matteo Masucci, a PhD candidate in Kinesiology and Health Sciences at the University of Waterloo, along with Giuseppe Annino, Cristian Savoia, Giuseppe Caminiti, Elvira Padua, Rosario D’Onofrio and Ferdinando Iellamo.
The researchers found that, all positions on a soccer pitch except centre backs showed a strong association between aerobic power training and high-intensity performance.
The ability to make this assessment could help coaches regulate individual training loads based on player position, according to the study.
“It is perhaps not surprising because centre backs cover less distance and perform fewer power events than other field positions,” said Masucci. “Centre backs face the pitch and control the situation. They have a slower pace and play more of a mental or tactical game. Midfielders analyze everything in front and behind them and must react in both these directions. Strikers need to express maximal effort to get a shot off at the right time,” he said.
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Researchers worked with data from 62 Italian Serie A soccer players over a full season between 2014-15 and 2018-19 and tested whether targeted treadmill training and lactate blood samples from the players’ earlobes properly assessed aerobic fitness the overall amount of energy required to perform a high-power event like acceleration or deceleration.
“When paired with videos of on-field performance, our analysis showed that the link between aerobic fitness and repeated high-intensity sequences in a game varied with the position a soccer competitor played,” said Masucci, who is also a soccer coach.
It was found that during a 90-minute game, an elite soccer player can make up to 1,400 activity changes and up to 200 short multidirectional high-intensity efforts, necessitating physical conditioning not only in terms of speed but in movement pattern changes as well.
Previous studies have investigated the association between aerobic fitness and soccer, but only in the speed category. Masucci said because of the acceleration and deceleration that elite soccer players must expend, as well as the time it takes to recover from high-intensity sequences, it was also important to study high-power events that are not related to speed.
“These findings mean that coaches can use lactate blood samples and incremental treadmill assessments to provide valuable information about soccer players,” Masucci said.
“Players who have a high metabolic power distance cut-off equal to or higher than 1,450 m for centre backs, 1,990 m for full-backs, 2,170 m for midfielders and 1,670 m for forwards could be considered as having superior aerobic fitness. Therefore, when planning training and game strategy, coaches should consider these individual differences in physiological and physical performance,” Masucci concluded.