Neurotropin® accelerates peripheral nerve regeneration in a rat sciatic nerve crush injury model

Neurotropin® alleviates nerve damage in a mouse chronic nerve compression model

Chronic nerve compression disorders, such as carpal tunnel syndrome, are common and can significantly impair daily activities due to motor and sensory dysfunctions. Currently, no systemic pharmacotherapy exists for preventing or treating disease progression. This study aims to investigate whether Neurotropin®, an established analgesic, has therapeutic effects. A chronic nerve compression model was created by wrapping a silicone tube around the sciatic nerve in C57BL/6 mice. Nerves were evaluated electrophysiologically and histologically 2 weeks post-surgery. To confirm the preventive effect on disease onset, we administered Neurotropin® subcutaneously. Additionally, continuous subcutaneous administration of Neurotropin® was started 2 weeks post-surgery, and the therapeutic effects were evaluated at 4 and 8 weeks. Furthermore, the therapeutic effects of daily oral administration of Neurotropin®, starting 2 weeks post-surgery, were evaluated at 8 weeks. Significant decreases in nerve conduction velocity and axonal myelination were observed at 2 weeks post-injury. Neurotropin® administration initiated concurrently with model creation did not prevent disease onset at 2 weeks post-surgery. However, starting administration of Neurotropin® 2 weeks post-injury significantly improved outcomes at 8 weeks post-surgery compared to the control group, with continuous subcutaneous and daily oral administration. Neurotropin® may exhibit therapeutic effects for chronic nerve compression disorders.

TsMS combined with EA promotes functional recovery and axonal regeneration via mediating the miR-539-5p/Sema3A/PlexinA1 signalling axis in sciatic nerve-injured rats

Enhancing axonal regeneration is one of the most important processes in treating nerve injuries. Both magnetic and electrical stimulation have the effect of promoting nerve axon regeneration. But few study has investigated the effects of trans-spinal magnetic stimulation (TsMS) combined with electroacupuncture (EA) on nerve regeneration in rats with sciatic nerve injury. In this study, we compared the improvement of neurological function in rats with sciatic nerve crush injuries after 4 weeks of different interventions (EA, TsMS, or TsMS combined with EA). We further explored the morphological and molecular biological alterations following sciatic nerve injury by HE, Masson, RT-PCR, western blotting, immunofluorescence staining and small RNA transcriptome sequencing. The results showed that TsMS combined with EA treatment significantly promoted axonal regeneration, increased the survival rate of neurons, and suppressed denervation atrophy of the gastrocnemius muscle. Subsequent experiments suggested that the combination treatment may play an active role by mediating the miR-539-5p/Sema3A/PlexinA1 signaling axis.