Contractions dynamic of “fast” and “slow” rat muscle under spinal shock and modulators of contraction

Abstract

Aim. To study the dynamics of neuromotor regulation of the contractile function of fast and slow muscles in rodents during spinal shock by spinal cord transection at the level Тh11Тh12. \nMethods. The experiments were carried out on laboratory rats weighing 140180 g. The animals were divided into two groups: Control (8 rats) and Spinal shock (6 rats). The lower leg muscles, m. soleus and m. extensor digitorum longus (m. EDL), were dissected by partially isolating without disrupting the connection with the body s circulatory system. The sciatic nerve was stimulated with single electrical impulses (10 V, 0.5 ms). Contractions of both muscles caused by electrical stimulation of the sciatic nerve before and after the injection of the substances into the femoral artery tubocurarine (1 mM) or norepinephrine (10 mM) were recorded in animals of both groups. After spinalization, muscle contractions were re-recorded during electrical stimulation of the sciatic nerve before and 10 minutes after the injection of tubocurarine or noradrenaline into the femoral artery in the same concentrations. \nResults. After spinalization of the animal, the contraction force of the muscle m. EDL fibers increased to 0.430.03 g (p=0.040), but the temporal parameters remained unchanged. M. soleus, on the contrary, showed a decrease in the contraction time to 0.0530.005 s (p=0.045), and no change in the contraction force was observed under these conditions. Intra-arterial administration of norepinephrine in the control group resulted in an increase of m. soleus contractions up to 1.210.17 g (p=0.048), and m. EDL up to 0.570.07 g (p=0.043). The administration of norepinephrine in spinalized animals caused an increase in the contraction of m. soleus up to 1.210.09 g (p=0.047), and m. EDL up to 0.660.05 g (p=0.043). The blocker of postsynaptic cholinergic receptors tubocurarine administration reduced the force of contraction of both muscle types in both control [m. soleus up to 0.390.03 g (p=0.039), m. EDL up to 0.110.02 g (p=0.042)] and spinalized [m. soleus up to 0.340.05 g (p=0.039), m. EDL up to 0.150.04 g (p=0.040)] animals. \nConclusion. The data obtained demonstrate the presence of significant differences in the mechanisms of control of contractile activity in the fast and slow skeletal muscles of warm-blooded animals; the persistence of the similar effect of the basic modulators on the contraction of both muscles with such a striking reaction to spinalization highlights the contribution of neurotrophic control to the functioning of fast and slow motor units.