Muscle substrate utilization from alveolar gas exchange in trained cyclists.

The respiratory exchange ratio (R) during steady-state exercise is equivalent to whole-body respiratory quotient (RQ), but does not represent muscle metabolism alone. If steady-state values of carbon dioxide production (VCO2) and oxygen uptake (VO2) are plotted for different work rates, the slope of the line fitting these points should estimate muscle RQ. Twelve cyclists randomly performed five 8-min, constant work rate tests of 40, 80, 120, 160 and 200 W. Whole-body R, averaged over the final 2 min of each exercise bout, increased with increasing work rate. When VCO2 was plotted as a function of VO2, the regression lines through the five points displayed excellent linearity, had negative y-intercepts, and a slope of 0.915 (0.043) [mean (SD)], which was greater than the whole-body R at any individual work rate [range 0.793 (0.027) at 40 W to 0.875 (0.037) at 200 W]. This slope was comparable to the lower slope of the VCO2 versus VO2 plot of an increasing work rate (ramp) protocol [0.908 (0.054)]. We conclude that, during mild and moderate exercise of relatively short duration, contracting muscle has a high and constant RQ, indicating that carbohydrate is the predominant metabolic substrate. Whole-body R does not accurately reflect muscle substrate utilization and probably underestimates muscle RQ at a given work rate.

RCT Entities:   Population Interventions Outcomes