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. 2017 Apr;117(4):631-640.
doi: 10.1007/s00421-017-3560-x. Epub 2017 Feb 26.

Changes in agonist neural drive, hypertrophy and pre-training strength all contribute to the individual strength gains after resistance training

Thomas G Balshaw  1   2 Garry J Massey  3   4 Thomas M Maden-Wilkinson  4   5 Antonio J Morales-Artacho  4 Alexandra McKeown  4 Clare L Appleby  4 Jonathan P Folland  3   4
Affiliations
Free article

Changes in agonist neural drive, hypertrophy and pre-training strength all contribute to the individual strength gains after resistance training

Thomas G Balshaw et al. Eur J Appl Physiol. 2017 Apr.
Free article

Abstract

Purpose: Whilst neural and morphological adaptations following resistance training (RT) have been investigated extensively at a group level, relatively little is known about the contribution of specific physiological mechanisms, or pre-training strength, to the individual changes in strength following training. This study investigated the contribution of multiple underpinning neural [agonist EMG (QEMGMVT), antagonist EMG (HEMGANTAG)] and morphological variables [total quadriceps volume (QUADSVOL), and muscle fascicle pennation angle (QUADSθ p)], as well as pre-training strength, to the individual changes in strength after 12 weeks of knee extensor RT.

Methods: Twenty-eight healthy young men completed 12 weeks of isometric knee extensor RT (3/week). Isometric maximum voluntary torque (MVT) was assessed pre- and post-RT, as were simultaneous neural drive to the agonist (QEMGMVT) and antagonist (HEMGANTAG). In addition QUADSVOL was determined with MRI and QUADSθ p with B-mode ultrasound.

Results: Percentage changes (∆) in MVT were correlated to ∆QEMGMVT (r = 0.576, P = 0.001), ∆QUADSVOL (r = 0.461, P = 0.014), and pre-training MVT (r = -0.429, P = 0.023), but not ∆HEMGANTAG (r = 0.298, P = 0.123) or ∆QUADSθ p (r = -0.207, P = 0.291). Multiple regression analysis revealed 59.9% of the total variance in ∆MVT after RT to be explained by ∆QEMGMVT (30.6%), ∆QUADSVOL (18.7%), and pre-training MVT (10.6%).

Conclusions: Changes in agonist neural drive, quadriceps muscle volume and pre-training strength combined to explain the majority of the variance in strength changes after knee extensor RT (~60%) and adaptations in agonist neural drive were the most important single predictor during this short-term intervention.

Keywords: Between-individual variability; Muscle architecture; Muscle volume; Neural drive; Strength training.

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