Characterizing the Exponential Profile of W' Recovery Following Partial Depletion.
| Autor: | Lievens M, Ghijs M; Department of Movement and Sports Sciences, Ghent University, Ghent, BELGIUM., Bourgois JG, Vermeire KM, Bourgois G; Department of Movement and Sports Sciences, Ghent University, Ghent, BELGIUM., Colosio AL; Department of Movement and Sports Sciences, Ghent University, Ghent, BELGIUM., Boone J, Caen K |
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| Jazyk: | angličtina |
| Zdroj: | Medicine and science in sports and exercise [Med Sci Sports Exerc] 2024 Sep 01; Vol. 56 (9), pp. 1770-1781. Date of Electronic Publication: 2024 May 15. |
| DOI: | 10.1249/MSS.0000000000003468 |
| Abstrakt: | Purpose: The aim of this study was to characterize W' recovery kinetics in response to a partial W' depletion. We hypothesized that W' recovery following a partial depletion would be better described by a biexponential than by a monoexponential model. Methods: Nine healthy men performed a ramp incremental exercise test, three to five constant load trials to determine critical power and W', and 10 experimental trials to quantify W' depletion. Each experimental trial consisted of two constant load work bouts (WB1 and WB2) interspersed by a recovery interval. WB1 was designed to evoke a 25% or 75% W' depletion (DEP 25% and DEP 75% ). Subsequently, participants recovered for 30, 60, 120, 300, or 600 s and then performed WB2 to exhaustion to calculate the observed W' recovery (W' OBS ). W' OBS data were fitted using monoexponential and biexponential models, both with a variable and with a fixed model amplitude. Root mean square error and Akaike information criterion (AIC c ) were calculated to evaluate the models' goodness-of-fit. Results: The biexponential model fits were associated with overall lower root mean square error values (0.4% to 5.0%) when compared with the monoexponential models (2.9% to 8.0%). However, ΔAIC c resulted in negative values (-15.5 and -23.3) for the model fits where the amplitude was kept free, thereby favoring the use of a monoexponential model for both depletion conditions. For the model fits where the amplitude was fixed at 100%, ΔAIC c was negative for DEP 25% (-15.0) but positive for DEP 75% (11.2). W' OBS values were strongly correlated between both depletion conditions ( r = 0.92) and positively associated with V̇O 2peak , critical power, and gas exchange threshold ( r = 0.67 to 0.77). Conclusions: The present study results did not provide evidence in favor of a biexponential modeling technique to characterize W' recovery following a partial depletion. Moreover, we demonstrated that fixed time constants were insufficient to model W' recovery across different depletion levels, and that W' recovery was positively associated with aerobic fitness. These findings underline the importance of employing variable and individualized time constants in future predictive W' models. (Copyright © 2024 by the American College of Sports Medicine.) |
| Databáze: | MEDLINE |
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