Purpose: To evaluate training induced metabolic changes noninvasively with (31)P magnetic resonance spectroscopy ((31)P-MRS) for measuring muscle fibre type adaptation.
Methods: Eleven volunteers underwent a 24-week training, consisting of speed-strength, endurance, and detraining (each 8 weeks). Prior to and following each training period, needle biopsies and (31)P-MRS of the resting gastrocnemius muscle were performed. Fibre type distribution was analyzed histologically and tested for correlation with the ratios of high energy phosphates ([PCr]/[P(i)], [PCr]/[βATP] and [PCr + P(i)]/[βATP]). The correlation between the changes of the (31)P-MRS parameters during training and the resulting changes in fibre composition were also analysed.
Results: We observed an increased type-II-fibre proportion after speed-strength and detraining. After endurance training the percentage of fast-twitch fibres was reduced. The progression of the [PCr]/[P(i)]-ratio was similar to that of the fast-twitch fibres during the training. We found a correlation between the type-II-fibre proportion and [PCr]/[P(i)] (r = 0.70, P < 0.01) or [PCr]/[βATP] (r = 0.69, P < 0.01); the correlations between its changes (delta) and the fibre-shift were significant as well (delta[PCr]/[P(i)] r = 0.66, delta[PCr]/[βATP] r = 0.55, P < 0.01).
Conclusion: Shifts in fibre type composition and high energy phosphate metabolite content covary in human gastrocnemius muscle. Therefore (31)P-MRS might be a feasible method for noninvasive monitoring of exercise-induced fibre type transformation.