Mehdi Rouissi1, Monoem Haddad2, Nicola L Bragazzi3, Adam L Owen4,5, Wassim Moalla6, Moktar Chtara7, Karim Chamari8. 1. Unit of Sport Performance and Health Research, Higher Institute of Sport and Physical Education of Ksar Said, Tunis, Tunisia - mehdirwissi@gmail.com. 2. Sport Science Program, College of Arts and Sciences, Qatar University, Doha, Qatar. 3. Department of Health Sciences (DISSAL), School of Public Health, University of Genoa, Genoa, Italy. 4. Servette Center for Football Research (SCFR), Servette Football Club, Geneva, Switzerland. 5. Claude Bernard University Lyon, Center for Research and Innovation in Sports (CRIS), Villeurbanne, France. 6. High Institute of Sports Sciences, UR EM2S-ISSEPS, Sfax, Tunisia. 7. Sport Performance Optimization Research Laboratory, National Center of Medicine and Science in Sports, Tunis, Tunisia. 8. Athlete Health and Performance Research Center, ASPETAR, Qatar Orthopedic and Sports Medicine Hospital, Doha, Qatar.
Abstract
BACKGROUND: Team sports require rapid whole-body change of direction (COD) in order to regain, maintain possession of the ball or to avoid opponent. These actions are often performed through unilateral process, with the contralateral leg incurring no ground contact. As a result, maintaining unilateral dynamic balance remains important. The aim of this study was to examine the relationship between dynamic balance (DB) and (COD) performance in young elite soccer players. METHODS: Twenty right-footed young elite soccer players (mean age 16.42±0.55 years, mean height 176±2.5 cm; mean leg length 95.70±3.34 cm, mean body mass 67.03±5.20 kg) participated in this study. All players performed star excursion balance test (SEBT) with dominant (DL) and nondominant leg (NDL). Ten-meter sprint with COD of 45°, 90°, 135° or 180° after 5 m were also assessed with COD on both right and left sides. RESULTS: Correlations analysis showed significant negative relationships (moderate to high) between COD tests (with DL and NDL) and some selected reaching directions of the SEBT. Stepwise multiple regression analysis showed that DB performance explained between 20% and 75% of the variance of COD tests. Likewise, dynamic balance contribution was dependent upon the angle of COD and the leg used to turn. CONCLUSIONS: Some selected reaching directions of the SEBT were significantly correlated with COD's performance in young elite soccer players which, possibly due to similarities in movement demands and muscle recruitment. Furthermore, the contribution of dynamic balance on COD performance was angle dependent and individualized specific dynamic stability exercises may be required to compensate players' deficit in each COD angle.
BACKGROUND: Team sports require rapid whole-body change of direction (COD) in order to regain, maintain possession of the ball or to avoid opponent. These actions are often performed through unilateral process, with the contralateral leg incurring no ground contact. As a result, maintaining unilateral dynamic balance remains important. The aim of this study was to examine the relationship between dynamic balance (DB) and (COD) performance in young elite soccer players. METHODS: Twenty right-footed young elite soccer players (mean age 16.42±0.55 years, mean height 176±2.5 cm; mean leg length 95.70±3.34 cm, mean body mass 67.03±5.20 kg) participated in this study. All players performed star excursion balance test (SEBT) with dominant (DL) and nondominant leg (NDL). Ten-meter sprint with COD of 45°, 90°, 135° or 180° after 5 m were also assessed with COD on both right and left sides. RESULTS: Correlations analysis showed significant negative relationships (moderate to high) between COD tests (with DL and NDL) and some selected reaching directions of the SEBT. Stepwise multiple regression analysis showed that DB performance explained between 20% and 75% of the variance of COD tests. Likewise, dynamic balance contribution was dependent upon the angle of COD and the leg used to turn. CONCLUSIONS: Some selected reaching directions of the SEBT were significantly correlated with COD's performance in young elite soccer players which, possibly due to similarities in movement demands and muscle recruitment. Furthermore, the contribution of dynamic balance on COD performance was angle dependent and individualized specific dynamic stability exercises may be required to compensate players' deficit in each COD angle.
Authors: Moisés Falces-Prieto; Francisco Tomás González-Fernández; Gabriel García-Delgado; Rui Silva; Hadi Nobari; Filipe Manuel Clemente Journal: Sci Rep Date: 2022-07-18 Impact factor: 4.996