Compensatory adaptations of skeletal muscle fiber types to a long-term functional overload

We investigated selected histochemical and histometrical characteristics of the heterogeneous fiber types of rat skeletal muscle following long-term compensatory muscle growth. Sixty days following surgical removal of the synergistic gastrocnemius muscle, the compensated ipsilateral plantaris and soleus muscles and the corresponding control muscles from the contralateral leg were excised and stained histochemically for myofibrillar ATPase and DPNH-diaphorase activities. The number of fibers per cross-section was determined by a direct count from transverse sections taken from the midportion of the muscles. Fiber area was determined by direct planimetry. The plantaris and soleus muscles hypertrophied 103% and 45%, respectively, within 60 days. Compensatory hypertrophy of the plantaris muscle was accompanied by a significant but disproportionate increase in the cross-sectional areas of the three muscle fiber types. There was an approximate 4-fold increase in the number of slow-twitch-oxidative (SO) fibers observed per transverse section. The hypertrophied plantaris muscle exhibited a significantly greater number of fibers per cross-section (29%) than the respective control muscle. The compensated soleus muscle consisted of nearly 100% SO fibers compared to 83% for the control soleus muscle.