Protection of muscle membrane excitability during prolonged cycle exercise with glucose supplementation

2007 
To determine if exercise-induced depressions in neuromuscular function are altered with oral glucose supplementation, 15 untrained participants (Vo2 peak = 45 ± 2 ml·kg−1·min−1, mean ± SE) performed prolonged cycle exercise at ∼60% Vo2 peak on two occasions: without glucose supplementation (NG) and with oral glucose supplementation (G). The oral G began at 30 min of exercise and was administered every 15 min (total ingested = 1.23 ± 0.11 g carbohydrate/kg body mass). Quadriceps isometric properties and membrane excitability were assessed prior to exercise, after 90 min of exercise, and at fatigue. Cycle time to fatigue was greater ( P < 0.05) in G compared with NG (137 ± 7 vs. 115 ± 6 min). Progressive reductions ( P < 0.05) in maximal voluntary contraction (MVC, N) were observed for NG at 90 min (441 ± 29) and at fatigue (344 ± 33) compared with pre-exercise (666 ± 30). At fatigue in G, the reduction in MVC was not as pronounced ( P < 0.05) as in NG. Motor unit activation assessed with the interpolated twitch technique during an MVC following exercise was not different between conditions. During cycling, the G condition also resulted in a higher ( P < 0.05) muscle compound potential (M-wave) amplitude (mV) at both 90 min (+50%) and at fatigue (+87%) compared with NG. Similar effects were also found M-wave area (mV/ms). These results suggest that the ergogenic effect of glucose supplementation occurs not as a result of decreased neural activation but to improved muscle function, possibly as a consequence of protection of muscle membrane excitability.
    • Correction
    • Source
    • Cite
    • Save
    • Machine Reading By IdeaReader
    55
    References
    31
    Citations
    NaN
    KQI
    []