Breathing hypoxic, normoxic, or hyperoxic gas mixtures during exercise resulted in quadriceps mean force response decreases of 26%, 17%, and 13%, respectively (P<0.05 between each).
RCT (n=8)
Randomized
Does altering arterial oxygen content affect the rate of locomotor muscle fatigue development during strenuous systemic exercise in healthy trained male athletes?
Alterations in arterial oxygen content during strenuous systemic exercise significantly affect the rate of locomotor muscle fatigue development in healthy athletes.
Absolute Event Rate: -26% vs -17%
p-value: p=< 0.05
The effect of arterial O2 content (Ca(O2)) on quadriceps fatigue was assessed in healthy, trained male athletes. On separate days, eight participants completed three constant-workload trials on a bicycle ergometer at fixed workloads (314 +/- 13 W). The first trial was performed while the subjects breathed a hypoxic gas mixture inspired O2 fraction (Fi(O2)) = 0.15, Hb saturation = 81.6%, Ca(O2) = 18.2 ml O2/dl blood; Hypo until exhaustion (4.5 +/- 0.4 min). The remaining two trials were randomized and time matched with Hypo. The second and third trials were performed while the subjects breathed a normoxic (Fi(O2) = 0.21, Hb saturation = 95.0%, Ca(O2) = 21.3 ml O2/dl blood; Norm) and a hyperoxic (Fi(O2) = 1.0, Hb saturation = 100%, Ca(O2) = 23.8 ml O2/dl blood; Hyper) gas mixture, respectively. Quadriceps muscle fatigue was assessed via magnetic femoral nerve stimulation (1-100 Hz) before and 2.5 min after exercise. Myoelectrical activity of the vastus lateralis was obtained from surface electrodes throughout exercise. Immediately after exercise, the mean force response across 1-100 Hz decreased from preexercise values (P < 0.01) by -26 +/- 2, -17 +/- 2, and -13 +/- 2% for Hypo, Norm, and Hyper, respectively; each of the decrements differed significantly (P < 0.05). Integrated electromyogram increased significantly throughout exercise (P < 0.01) by 23 +/- 3, 10 +/- 1, and 6 +/- 1% for Hypo, Norm, and Hyper, respectively; each of the increments differed significantly (P < 0.05). Mean power frequency fell more (P < 0.05) during Hypo (-15 +/- 2%); the difference between Norm (-7 +/- 1%) and Hyper (-6 +/- 1%) was not significant (P = 0.32). We conclude that deltaCa(O2) during strenuous systemic exercise at equal workloads and durations affects the rate of locomotor muscle fatigue development.
Amann et al. (Fri,) conducted a rct in Healthy, trained male athletes (n=8). Hypoxic and hyperoxic gas mixtures vs. Normoxic gas mixture (Fi(O2) = 0.21) was evaluated on Quadriceps muscle fatigue (decrease in mean force response across 1-100 Hz) (p=< 0.05). Breathing hypoxic, normoxic, or hyperoxic gas mixtures during exercise resulted in quadriceps mean force response decreases of 26%, 17%, and 13%, respectively (P<0.05 between each).
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: