Abstract
The purposes of this study were to investigate effects of partial block periodized strength training on physical performance and to examine relationships between initial muscle strength measured with isometric mid-thigh pull (IMTP) and performance changes after 7 weeks of strength training. Seventeen collegiate male soccer players participated. Initial muscle strength was determined using IMTP while physical performance included 10 m and 20 m sprints and static vertical jump with a polyvinyl chloride pipe (SJ0), 20 kg barbell (SJ20), and barbell loaded to 40 kg bar (SJ40). Performance testing was performed at three points: before first week (baseline), fourth week (T1), and seventh week (T2). Statistically small to moderate changes were found from baseline to T2 in peak power (PP; p < 0.001, ES = 0.49), net impulse (NI; p < 0.001, ES = 0.49), peak velocity (PV; p < 0.001, ES = 0.62), allometrically scaled PP (PPa; p < 0.001, ES = 0.62) in SJ20 and jump height (JH) in SJ40 (p < 0.001, ES = 0.36). Moderate to large correlations were found between isometric peak force and the changes from baseline to T2 in SJ20 PP (p = 0.04, r = −0.49), SJ20 PF (p = 0.03, r = −0.52), PPa (p = 0.04, r = −0.50), and SJ20 allometrically scaled peak force (p = 0.04, r = −0.49). Properly structured strength training maximizes task-specific physical performance. Initial muscle strength negatively affects the magnitudes of adaptations to physical performance.
Highlights
Soccer is an intermittent physical activity consisting of sprinting, walking, jogging, jumping, kicking, heading, and changing directions
Initial muscle strength characteristics were determined by isometric peak force (IPF), rate of force development at 250 ms (RFD250), and net impulse to IPF (NIPF) using isometric mid-thigh pull (IMTP)
No significant differences are observed between baseline, T1, and T2 in all scales (PPC: p = 0.17; MPC: p = 0.98; EB: p = 0.86; OS: p = 0.41; RS: p = 0.44; MS: p = 0.22; LA: p = 0.81; NES: p = 0.42; OS: p = 0.91; SS: p = 0.87)
Summary
Soccer is an intermittent physical activity consisting of sprinting, walking, jogging, jumping, kicking, heading, and changing directions. A soccer team consists of 11 players and is played on a field of 90–120 m long and 45–90 m wide. In collegiate soccer in North America, men play approximately 20 to 25 matches over 12 to 16 weeks. Improving physical capacity during the off-season is quite essential because recovery intervals and developmental time are limited between matches (2 to 4 days between matches) during the competitive season. Off-season training to improve physical performance among collegiate soccer players can be quite limited because of collegiate regulations (e.g., 8 h of training sessions per week, and no supervised training during a spring break). Sports scientists and coaches need to select an efficient periodization model to improve physical performance within limited time periods
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