Unveiling the acute neurophysiological responses to strength training: An exploratory study on novices performing weightlifting bouts with different motor learning models

Currently, there is limited evidence regarding various neurophysiological responses to strength exercise and the influence of the adopted practice schedule. This study aimed to assess the acute systemic effects of snatch training bouts, employing different motor learning models, on skill efficiency,...

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Published in:Biology of sport Vol. 41; no. 2; pp. 249 - 274
Main Authors: Ammar, Achraf, Boujelbane, Mohamed Ali, Simak, Marvin Leonard, Fraile-Fuente, Irene, Rizzi, Nikolas, Washif, Jad Adrian, Zmijewski, Piotr, Jahrami, Haitham, Schöllhorn, Wolfgang I
Format: Journal Article
Language:English
Published: Poland Institute of Sport in Warsaw 01-01-2024
Termedia Publishing House
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Summary:Currently, there is limited evidence regarding various neurophysiological responses to strength exercise and the influence of the adopted practice schedule. This study aimed to assess the acute systemic effects of snatch training bouts, employing different motor learning models, on skill efficiency, electric brain activity (EEG), heart rate variability (HRV), and perceived exertion as well as mental demand in novices. In a within-subject design, sixteen highly active males (mean age: 23.13 ± 2.09 years) randomly performed snatch learning bouts consisting of 36 trials using repetitive learning (RL), contextual interference (blocked, CIb; and serial, CIs), and differential learning (DL) models. Spontaneous resting EEG and HRV activities were recorded at PRE and POST training bouts while measuring heart rate. Perceived exertion and mental demand were assessed immediately after, and barbell kinematics were recorded during three power snatch trials performed following the POST measurement. The results showed increases in alpha, beta, and gamma frequencies from pre- to post-training bouts in the majority of the tested brain regions (p values ranging from < 0.0001 to 0.02). The CIb model exhibited increased frequencies in more regions. Resting time domain HRV parameters were altered following the snatch bouts, with increased HR (p < 0.001) and decreased RR interval (p < 0.001), SDNN, and RMSSD (p values ranging from < 0.0001 to 0.02). DL showed more pronounced pulse-related changes (p = 0.01). Significant changes in HRV frequency domain parameters were observed, with a significant increase in LFn (p = 0.03) and a decrease in HFn (p = 0.001) registered only in the DL model. Elevated HR zones (> HR zone 3) were more dominant in the DL model during the snatch bouts (effect size = 0.5). Similarly, the DL model tended to exhibit higher perceived physical (effect size = 0.5) and mental exertions (effect size = 0.6). Despite the highest psycho-physiological response, the DL group showed one of the fewest significant EEG changes. There was no significant advantage of one learning model over the other in terms of technical efficiency. These findings offer preliminary support for the acute neurophysiological benefits of coordination-strength-based exercise in novices, particularly when employing a DL model. The advantages of combining EEG and HRV measurements for comprehensive monitoring and understanding of potential adaptations are also highlighted. However, further studies encompassing a broader range of coordination-strength-based exercises are warranted to corroborate these observations.
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ORCID: Achraf Ammar 0000-0003-0347-8053, Mohamed Ali Boujelbane 0000-0002-6243-9321, Marvin Leonard Simak 0000-0003-2979-0985, Irene Fraile-Fuente 0009-0004-9719-4290, Nikolas Rizzi:0000-0002-0477-4295, Jad Adrian Washif 0000-0001-8543-4489, Piotr Zmijewski 0000-0001-8933-4127, Haitham Jahrami 0000-0001-8990-1320, Wolfgang I. Schöllhorn 0000-0002-4558-1991
ISSN:0860-021X
2083-1862
DOI:10.5114/biolsport.2024.133481