Prediction of Exercise Tolerance in the Severe and Extreme Intensity Domains by a Critical Power Model
(Thiago Pereira Ventura, Fernando Klitzke Borszcz, Diego Antunes, Fabrizio Caputo, Tiago Turnes)
Article (PDF)
Authors
Thiago Pereira Ventura, Fernando Klitzke Borszcz, Diego Antunes, Fabrizio Caputo, Tiago Turnes
Abstract
This study aimed to assess the predictive capability of different critical power (CP) models on cycling exercise tolerance in the severe- and extreme-intensity domains. Nineteen cyclists (age: 23.0 ± 2.7 y) performed several time-to-exhaustion tests (Tlim) to determine CP, finite work above CP (W’), and the highest constant work rate at which maximal oxygen consumption was attained (IHIGH). Hyperbolic power-time, linear power-inverse of time, and work-time models with three predictive trials were used to determine CP and W’. Modeling with two predictive trials of the CP work-time model was also used to determine CP and W’. Actual exercise tolerance of IHIGH and intensity 5% above IHIGH (IHIGH+5%) were compared to those predicted by all CP models. Actual IHIGH (155 ± 30 s) and IHIGH+5% (120 ± 26 s) performances were not different from those predicted by all models with three predictive trials. Modeling with two predictive trials overestimated Tlim at IHIGH+5% (129 ± 33 s; p = 0.04). Bland-Altman plots of IHIGH+5% presented significant heteroscedasticity by all CP predictions, but not for IHIGH. Exercise tolerance in the severe and extreme domains can be predicted by CP derived from three predictive trials. However, this ability is impaired within the extreme domain.
DOI
DOI: 10.5114/jhk/170101
Citation
APA
Ventura, T. P., Borszcz, F. K., Antunes, D., Caputo, F., Turnes, T. (2023). Prediction of Exercise Tolerance in the Severe and Extreme Intensity Domains by a Critical Power Model. Journal of Human Kinetics, 89, 113-122. https://doi.org/10.5114/jhk/170101
Harvard Ventura, T. P., Borszcz, F. K., Antunes, D., Caputo, F., and Turnes, T. (2023). Prediction of Exercise Tolerance in the Severe and Extreme Intensity Domains by a Critical Power Model. Journal of Human Kinetics, 89, pp.113-122. https://doi.org/10.5114/jhk/170101
MLA Ventura, Thiago et al. “Prediction of Exercise Tolerance in the Severe and Extreme Intensity Domains by a Critical Power Model.” Journal of Human Kinetics, vol. 89, 2023, pp. 113-122. doi:10.5114/jhk/170101.
Vancouver Ventura TP, Borszcz FK, Antunes D, Caputo F, Turnes T. Prediction of Exercise Tolerance in the Severe and Extreme Intensity Domains by a Critical Power Model. Journal of Human Kinetics. 2023;89:113-22. https://doi.org/10.5114/jhk/170101
Key words
maximal oxygen uptake, cycling, high-intensity exercise, power-duration relationship,