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- Title
The Neuromuscular Determinants of Unilateral Jump Performance in Soccer Players Are Direction-Specific.
- Authors
Murtagh, Conall F.; Nulty, Christopher; Vanrenterghem, Jos; O'Boyle, Andrew; Morgans, Ryland; Drust, Barry; Erskine, Robert M.
- Abstract
Purpose: To investigate differences in neuromuscular factors between elite and nonelite players and to establish which factors underpin direction-specific unilateral jump performance. Methods: Elite (n = 23; age, 18.1 [1.0] y; body mass index, 23.1 [1.8] kg⋅m-2) and nonelite (n = 20; age, 22.3 [2.7] y; body mass index, 23.8 [1.8] kg⋅m-2) soccer players performed 3 unilateral countermovement jumps (CMJs) on a force platform in the vertical, horizontal-forward, and medial directions. Knee extension isometric maximum voluntary contraction torque was assessed using isokinetic dynamometry. Vastus lateralis fascicle length, angle of pennation, quadriceps femoris muscle volume (Mvol), and physiological cross-sectional area (PCSA) were assessed using ultrasonography. Vastus lateralis activation was assessed using electromyography. Results: Elite soccer players presented greater knee extensor isometric maximum voluntary contraction torque (365.7 [66.6] vs 320.1 [62.6] N·m; P = .045), Mvol (2853 [508] vs 2429 [232] cm³; P = .001), and PCSA (227 [42] vs 193 [25] cm²; P = .003) than nonelite. In both cohorts, unilateral vertical and unilateral medial CMJ performance correlated with Mvol and PCSA (r ≥ .310, P ≤ .043). In elite soccer players, unilateral vertical and unilateral medial CMJ performance correlated with upward phase vastus lateralis activation and angle of pennation (r ≥ .478, P ≤ .028). Unilateral horizontal-forward CMJ peak vertical power did not correlate with any measure of muscle size or activation but correlated inversely with angle of pennation (r = -.413, P = .037). Conclusions: While larger and stronger quadriceps differentiated elite from nonelite players, relationships between neuromuscular factors and unilateral jump performance were shown to be direction-specific. These findings support a notion that improving direction-specific muscular power in soccer requires improving a distinct neuromuscular profile.
- Subjects
EXERCISE physiology; JUMPING; MUSCLE contraction; NEUROPHYSIOLOGY; PHYSICAL fitness; SOCCER; NEUROMUSCULAR system
- Publication
International Journal of Sports Physiology & Performance, 2018, Vol 13, Issue 5, p604
- ISSN
1555-0265
- Publication type
Article
- DOI
10.1123/ijspp.2017-0589