Abstract
To present an animal model to assess the effects of end-to-side innervation in the heterotopically transplanted model with reduced chances of neural contamination. The medial portion of the gastrocnemius muscle in wistar male rats was isolated and its pedicle dissected and performed a flap in the abdominal portion. To prevent neural contamination in the abdominal region, the muscle was wrapped with a Goretex(r) sheet. The specimens were divided into 2 groups (G). In G1 was performed an end-to-end suture between tibial nerve of the gastrocnemius and femoral motor nerve and between the saphenous sensory nerve and the motor nerve. In G2 was performed a end-to-side suture between the tibial nerve and the motor femoral and between the tibial nerve and saphenous motor nerve. The specimens were evaluated 60 days later to check the structure of the neurorraphy. Sections were obtained proximal and distal to the coaptation site. The medial gastrocnemius muscle had the advantage of maintaining visible mass after 60 days. No disruption of the coaptation site was found. No major injury to the donor nerve was seen in group 2. The proposed model is simple, reproduciple and prevent the neural contamination in the flap in end-to-side suture.
Highlights
Ballance reported the utility of an end-to-side neurorraphy for facial nerve reconstruction
Harris and Low reported the usage of the technique for brachial plexus reconstruction[1,2]
Viterbo[3] reintroduced the concept using a transected peroneal nerve coapted to the side of the tibial nerve, without removal of the epineurial sheath
Summary
Ballance reported the utility of an end-to-side neurorraphy for facial nerve reconstruction. Viterbo[3] reintroduced the concept using a transected peroneal nerve coapted to the side of the tibial nerve, without removal of the epineurial sheath It was Lundborg[4] to use end-to-side neurorraphy utilizing a sensory and motor nerve. Its anatomy was understood in detail and assessed previously in reliability as a transplant model This muscle has the advantage of bulk, functional characteristics, innervation and typical vascular supply[6,7]. The purpose of this paper is to present a simple transplant model to study the effects of the donor motor and a purely sensory nerve connected to the motor recipient nerve without the utilization of a nerve graft. The muscle is placed so that minimal interference from the surround tissues may occur
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call