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Skeletal muscle metabolism during short-term, high-intensity exercise in prepubertal and pubertal girls

1999; American Physiological Society; Volume: 87; Issue: 6 Linguagem: Inglês

10.1152/jappl.1999.87.6.2151

8750-7587

Stewart R. Petersen, Catherine A. Gaul, M. M. Stanton, Christopher C. Hanstock,

Muscle metabolism and nutrition

To test the hypothesis that glycolytic metabolism in muscle is attenuated in prepubertal children, (31)P-magnetic resonance spectroscopy was used to determine calf muscle intracellular pH (pH(i)) in nine prepubertal (Pre) and nine pubertal female swimmers (Pub). Maximal plantar flexion work capacity (100% MWC) was established by using a graded exercise test. Between 5 and 10 days later, calf muscle images (magnetic resonance imaging) and phosphorus spectra were acquired at rest, during 2 min of light exercise (40% MWC), and during 2 min of supramaximal exercise (140% MWC) in a 3.0-T NMR system. End-exercise pH(i) was 6.66 +/- 0.11 and 6.76 +/- 0.17 for Pub and Pre, respectively. No significant differences in the mean values for pH(i) or the P(i)-to-phosphocreatine ratio were observed between groups during the protocol; however, an interaction effect was found for the P(i)-to-phosphocreatine ratio during the supramaximal exercise challenge. Cross-sectional area of gastrocnemius was 15.12 +/- 0.46 and 9.37 +/- 0.37 cm(2) for Pub and Pre, respectively (P < 0.05). Differences in muscle size must be considered when interpreting the unlocalized magnetic resonance spectroscopy data. These results suggest that glycolytic metabolism in physically active children is not maturity dependent.