Physiologic and histologic features of muscle development in the hamster.

This study determined to what extent the hind limb muscles of hamsters resemble those of other mammals in undergoing changes in physiologic, morphologic, and histochemical properties as a function of age. Maximal isometric twitch and tetanic responses were evoked in soleus and plantaris muscles of hamsters aged 13 days to 6 months; all experiments were conducted in vivo under sodium pentobarbital anesthesia. In keeping with findings in the cat and rat, both hamster muscles had relatively prolonged twitches in the youngest animals; the twitches became briefer during development, that of plantaris having a minimum mean contraction time of 15.4 +/- 2.4 ms at 20 days and that of soleus, 28.3 +/- 3.5 ms at 46 days. In both muscles there was a subsequent slight prolongation of the twitch. The two muscles had similar masses at 13 and 20 days; thereafter the plantaris became considerably larger and stronger than the soleus and developed more tetanic tension per unit cross-sectional area. In keeping with its briefer contraction, plantaris had a more rapid rate of rise of tetanic tension than soleus and was more susceptible to fatigue; whereas the soleus developed depression of the twitch after a tetanus, the plantaris exhibited potentiation. Histological and histochemical studies showed that the plantaris had significantly more muscle fibers than the soleus and a much greater proportion of type II fibers (91 and 39%, respectively, in 120- to 180-day-old animals). Whereas the type II fibers had similar cross-sectional areas in the two muscles, the type I fibers were significantly smaller in plantaris than in soleus.