Drift in Oxygen Consumption during Prolonged Sub-maximal Exercise in Subjects of Different Training Status (original) (raw)

2011, International Journal of Sport and Health Science

This study investigated whether the drift in oxygen consumption (_VO 2 drift) during prolonged cycling exercise at the lactate threshold (LT) is smaller in endurance-trained subjects than in sedentary subjects, and whether the change in muscle activity assessed using electromyography (EMG) during prolonged exercise is aŠected by training status and corresponds with _VO 2 drift. Seven sedentary (mean(SD), _VO 2 max, 41.8(5.9) ml･kg･min-1) and eight endurance-trained men (_VO 2 max, 58.7(5.4) ml･kg･min-1) performed prolonged cycling exercise for 70 min at the LT. During the prolonged exercises, _VO 2 , _VCO 2 , and the electrical activity of four muscles (vastus lateralis, vastus medialis, biceps femoris, and gastrocnemius medialis) were measured continuously. During 70 min exercise at the LT, the absolute _VO 2 drift in endurance-trained group was higher than sedentary group (469(189) ml vs 309(77) ml, respectively), whereas the relative _VO 2 drift was not diŠered between the sedentary and endurance-trained groups (1.20(0.04) times vs 1.21(0.08) times, respectively). Additionally, RMS and iEMG did not change during prolonged exercise. These results suggest that the relative _VO 2 drift during 70 min exercise at the LT was not diŠered between with the subject groups with the diŠerent training status and endurance capacity. The _VO 2 drift during 70 min exercise at the LT did not correspond with the changes in muscle activity of leg muscles, EMGs of which did not change throughout the experiments.