Nonlinear surface EMG analysis to detect the neuroprotective effect of citicoline in rat sciatic nerve crush injury.

Abstract

Surface electromyography (sEMG) is a method involving physiological signals with a complex behavior. The aim is to analyze the sEMG signals by nonlinear techniques for investigating the possible neuroprotective effect of citicoline for early period of administration in rat sciatic nerve crush injury. Thirty-two Wistar rats were randomized into four groups: the sham-operated group with the intact sciatic nerve and the sciatic nerve crush groups, which received crush on the left sciatic nerve and administrated i.p. citicoline (50 and 250mg/kg/day, 7day) or saline (control group). Function assessment analysis was performed and sEMG signals were recorded and analyzed with nonlinear methods. Citicoline administration improved functional recovery in comparison with control group. Largest Lyapunov exponent and correlation dimension parameters were decreased due to the crush injury and increased related with the healing of sciatic nerve. Results of nonlinear analysis of sEMG are in line with the results of functional recovery and electrophysiological assessments. These results suggest that administration of citicoline protects the sciatic nerve from the crush injury which may be attributed to its antioxidative properties. Nonlinear analysis of sEMG is a promising supporting method for determining the nerve regeneration process during the treatment of peripheral nerve injuries.