Estimates for the phase 2 time constant and the slow component of oxygen uptake during exercise differed significantly among various exponential models (P < 0.05).
The choice of exponential model significantly alters estimates of oxygen uptake kinetics during exercise, emphasizing the need for standardized modeling methods.
p-value: p=<0.05
We compared estimates for the phase 2 time constant (tau) of oxygen uptake (VO2) during moderate- and heavy-intensity exercise, and the slow component of VO2 during heavy-intensity exercise using previously published exponential models. Estimates for tau and the slow component were different (P < 0.05) among models. For moderate-intensity exercise, a two-component exponential model, or a mono-exponential model fitted from 20 s to 3 min were best. For heavy-intensity exercise, a three-component model fitted throughout the entire 6 min bout of exercise, or a two-component model fitted from 20 s were best. When the time delays for the two- and three-component models were equal the best statistical fit was obtained; however, this model produced an inappropriately low DeltaVO2/DeltaWR (WR, work rate) for the projected phase 2 steady state, and the estimate of phase 2 tau was shortened compared with other models. The slow component was quantified as the difference between VO2 at end-exercise (6 min) and at 3 min (DeltaVO2 (6-3 min)); 259 ml x min(-1)), and also using the phase 3 amplitude terms (truncated to end-exercise) from exponential fits (409-833 ml x min(-1)). Onset of the slow component was identified by the phase 3 time delay parameter as being of delayed onset approximately 2 min (vs. arbitrary 3 min). Using this delay DeltaVO2 (6-2 min) was approximately 400 ml x min(-1). Use of valid consistent methods to estimate tau and the slow component in exercise are needed to advance physiological understanding.
Bell et al. (Sat,) conducted a other in Exercise (oxygen uptake kinetics). Exponential modelling techniques vs. Alternative exponential models was evaluated on Estimates for the phase 2 time constant (tau) and the slow component of VO2 (p=<0.05). Estimates for the phase 2 time constant and the slow component of oxygen uptake during exercise differed significantly among various exponential models (P < 0.05).