Assessment of Neuromuscular Function After Different Strength Training Protocols Using Tensiomyography

Rauno Á. de Paula Simola; Nico Harms; Christian Raeder; Michael Kellmann; Tim Meyer; Mark Pfeiffer; Alexander Ferrauti

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Assessment of Neuromuscular Function After Different Strength Training Protocols Using Tensiomyography

de Paula Simola, Rauno Á. ^[2] ; Harms, Nico ^[2] ; Raeder, Christian ^[2] ; Kellmann, Michael ^[2] ; Meyer, Tim ^[1] ; Pfeiffer, Mark ^[3] ; Ferrauti, Alexander ^[2]
1. [1] Saarland University
  
  Saarland University
  
  Regionalverband Saarbrücken, Alemania
2. [2] Ruhr-University Bochum
3. [3] Johannes-Gutenberg University
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Localización: Journal of strength and conditioning research: the research journal of the NSCA, ISSN 1064-8011, Vol. 29, Nº. 5, 2015, págs. 1339-1348
Idioma: inglés
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Resumen
- The purpose of the study was to analyze tensiomyography (TMG) sensitivity to changes in muscle force and neuromuscular function of the muscle rectus femoris (RF) using TMG muscle properties after 5 different lower-limb strength training protocols (multiple sets; DS = drop sets; eccentric overload; FW = flywheel; PL = plyometrics). After baseline measurements, 14 male strength trained athletes completed 1 squat training protocol per week over a 5-week period in a randomized controlled order. Maximal voluntary isometric contraction (MVIC), TMG measurements of maximal radial displacement of the muscle belly (Dm), contraction time between 10 and 90% of Dm (Tc), and mean muscle contraction velocities from the beginning until 10% (V10) and 90% of Dm (V90) were analyzed up to 0.5 (post-train), 24 (post-24), and 48 hours (post-48) after the training interventions. Significant analysis of variance main effects for measurement points were found for all TMG contractile properties and MVIC (p < 0.01). Dm and V10 post-train values were significantly lower after protocols DS and FW compared with protocol PL (p = 0.032 and 0.012, respectively). Dm, V10, and V90 decrements correlated significantly to the decreases in MVIC (r = 0.64–0.67, p <= 0.05). Some TMG muscle properties are sensitive to changes in muscle force, and different lower-limb strength training protocols lead to changes in neuromuscular function of RF. In addition, those protocols involving high and eccentric load and a high total time under tension may induce higher changes in TMG muscle properties.