Xin-ze He scite author profile

Injury severity, operative technique and nerve regeneration are important factors to consider when constructing a model of peripheral nerve injury. Here, we present a novel peripheral nerve injury model and compare it with the complete sciatic nerve transection method. In the experimental group, under a microscope, a 3-mm longitudinal incision was made in the epineurium of the sciatic nerve to reveal the nerve fibers, which were then transected. The small, longitudinal incision in the epineurium was then sutured closed, requiring no stump anastomosis. In the control group, the sciatic nerve was completely transected, and the epineurium was repaired by anastomosis. At 2 and 4 weeks after surgery, Wallerian degeneration was observed in both groups. In the experimental group, at 8 and 12 weeks after surgery, distinct medullary nerve fibers and axons were observed in the injured sciatic nerve. Regular, dense myelin sheaths were visible, as well as some scarring. By 12 weeks, the myelin sheaths were normal and intact, and a tight lamellar structure was observed. Functionally, limb movement and nerve conduction recovered in the injured region between 4 and 12 weeks. The present results demonstrate that longitudinal epineural incision with nerve transection can stably replicate a model of Sunderland grade IV peripheral nerve injury. Compared with the complete sciatic nerve transection model, our method reduced the difficulties of micromanipulation and surgery time, and resulted in good stump restoration, nerve regeneration, and functional recovery.

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Brain injury in combination with tacrolimus promotes the regeneration of injured peripheral nerves

Wang

et al. 2017

Neural Regen Res

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Investigation for the correlation between brain injury and injured ipsilateral sciatic nerve regeneration in a rat model

Wang

et al. 2019

J. Integr. Neurosci.

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Previous studies showed that brain trauma promotes repair of peripheral nerve injury by reducing scar in nerve endings. The effect of brain injury at different locations on ipsilateral rat sciatic nerve regeneration in Sprague-Dawley rats was found to promote the repair of ipsilateral sciatic nerve injury, thus providing further experimental evidence for the unveiling of traumatic brain injury promoting peripheral nerve regeneration.

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Xin-ze He

Controlled observation of posthemiplegic omalgia treated by acupuncture-moxibustion and rehabilitation

The longitudinal epineural incision and complete nerve transection method for modeling sciatic nerve injury

Brain injury in combination with tacrolimus promotes the regeneration of injured peripheral nerves

Investigation for the correlation between brain injury and injured ipsilateral sciatic nerve regeneration in a rat model

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