Muscle metabolism in track athletes, using 31P magnetic resonance spectroscopy

Abstract

We tested whether preferred running event in track athletes would correlate with the initial rate of phosphocreatine (PCr) resynthesis following submaximal exercise. PCr recovery was measured in the calf muscles of 16 male track athletes and 7 male control subjects following 5 min of repeated plantar flexion against resistance. P_i, PCr, and pH were measured using phosphorus magnetic resonance spectroscopy (³¹P MRS) with an 8-cm surface coil in a 1.8-T magnet. During exercise, work levels were gradually increased to deplete PCr to 50–60% of the initial value. No drop in pH was seen in any of the subjects during this exercise. The areas of the PCr peaks following exercise were fit to monoexponential curves. Two or three tests were performed on each subject and the results averaged. Athletes were divided into three groups based on their primary event: sprinters running 400 m or less, middle-distance athletes running 400–1500 m, and long-distance athletes running farther than 1500 m. The maximal rates of PCr resynthesis (mmol∙min⁻¹∙kg⁻¹ muscle weight) were 64.8 ± 8.6, for long-distance runners; 41.4 ± 11, for middle-distance runners; 32.0 ± 7.0, for sprinters; and 38.6 ± 10, for controls (mean ± SE). The faster PCr recovery rates seen in long-distance runners compared with sprinters indicate greater oxidative capacity, which is consistent with the known differences between athletes in these events.Key words: exercise recovery, human, phosphocreatine.