Changes in Perceived Mental Load and Motor Performance during Practice-to-Learn and Practice-to-Maintain in Basketball
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Gutiérrez Capote, Alejandro; Madinabeitia Cabrera, Iker; Torre Ramos, Elisa; Alarcón, Francisco; Jiménez Martínez, Jesús; Cárdenas Vélez, DavidEditorial
MDPI
Materia
Mental load Restrictions Motor performance
Date
2023-03-06Referencia bibliográfica
Gutiérrez-Capote, A.; Madinabeitia, I.; Torre, E.; Alarcón, F.; Jiménez-Martínez, J.; Cárdenas, D. Changes in Perceived Mental Load and Motor Performance during Practice-to-Learn and Practice-to- Maintain in Basketball. Int. J. Environ. Res. Public Health 2023, 20, 4664. https://doi.org/10.3390/ijerph20054664
Sponsorship
European Regional Development Fund (FEDER) Operational Programme Andalusia 2014-2020 (Spanish Research Agency); SEJ-746- UGR20 “Effect of the manipulation of contextual variables of physical exercise on mental load and cognitive, emotional and athletic performance”; Spanish Ministry of Science, Innovation and Universities: Grant FPU19/06224; Spanish Ministry of Universities: Grant FPU20/02022Abstract
Background: Attentional resource allocation during sports practice is associated with the
players’ perceived mental load. However, few ecological studies address this problem by considering
the players’ characteristics (e.g., practice experience, skill and cognition). Therefore, this study aimed
to analyse the dose-response effect of two different types of practice, each with different learning
objectives, on mental load and motor performance by using a linear mixed model analysis. Method:
Forty-four university students (age 20.36 ± 3.13 years) participated in this study. Two sessions were
conducted, one based on a standard rules 1 × 1 basketball situation (“practice to maintain”) and one
with motor, temporal and spatial restrictions in 1 × 1 tasks (“practice to learn”). Results: “Practice to
learn” produced a higher perceived mental load (NASA-TLX scale) and a worse performance than
“practice to maintain”, but was moderated by experience and inhibition (p = 0.001). The same happens
in the most demanding restriction (i.e., temporal, p < 0.0001). Conclusion: The results showed that
increasing the difficulty of 1 × 1 situations through restrictions harmed the player’s performance
and increased their perceived mental load. These effects were moderated by previous basketball
experience and the player’s inhibition capacity, so the difficulty adjustment should be based on the
athletes themselves.