Fuel metabolism in men and women during and after long-duration exercise

This study aimed to determine gender-baseddifferences in fuel metabolism in response to long-duration exercise.Fuel oxidation and the metabolic response to exercise were compared inmen (n = 14) and women(n = 13) during 2 h (40% of maximalO₂ uptake) of cycling and 2 h ofpostexercise recovery. In addition, subjects completed a separatecontrol day on which no exercise was performed. Fuel oxidation wasmeasured using indirect calorimetry, and blood samples were drawn forthe determination of circulating substrate and hormone levels. Duringexercise, women derived proportionally more of the total energyexpended from fat oxidation (50.9 ± 1.8 and 43.7 ± 2.1% forwomen and men, respectively, P < 0.02), whereas men derived proportionally more energy from carbohydrateoxidation (53.1 ± 2.1 and 45.7 ± 1.8% for men and women,respectively, P < 0.01). Thesegender-based differences were not observed before exercise, afterexercise, or on the control day. Epinephrine(P < 0.007) and norepinephrine(P < 0.0009) levels weresignificantly greater during exercise in men than in women (peakepinephrine concentrations: 208 ± 36 and 121 ± 15 pg/ml in menand women, respectively; peak norepinephrine concentrations: 924 ± 125 and 659 ± 68 pg/ml in men and women, respectively). Ascirculating glycerol levels were not different between the two groups,this suggests that women may be more sensitive to the lipolytic action of the catecholamines. In conclusion, these data support the view thatdifferent priorities are placed on lipid and carbohydrate oxidationduring exercise in men and women and that these gender-based differences extend to the catecholamine response to exercise.