Vascularized versus Free Nerve Grafts: An Experimental Study on Rats
- Authors: Giglia, Giuseppe; Rosatti, Fernando; Giannone, Antonino Giulio; Gambino, Giuditta; Zizzo, Maria Grazia; Florena, Ada Maria; Sardo, Pierangelo; Toia, Francesca
- Publication year: 2023
- Type: Articolo in rivista
- Key words: nerve animal models; nerve grafts; nerve regeneration; peripheral nerves; vascularized nerve grafts
- OA Link: http://hdl.handle.net/10447/623897
Abstract
Background: Vascularized nerve grafts (VNGs) have been proposed as a superior alternative to free nerve grafts (FNGs) for complex nerve defects. A greater regenerative potential has been suggested by clinical and experimental studies, but conclusive evidence is still lacking. Methods: In this experimental study, 10 adult male Wistar rats received a non-vascularized orthotopic sciatic nerve graft on their right side, and a vascularized orthotopic sciatic nerve graft nerve on their left side. Functional outcome following nerve regeneration was evaluated through electrodiagnostic studies, target muscles weight and histomorphology, and data of VNGs and FNGs were compared. Results: The results of this study showed a significant difference in the motor unit number of Gastrocnemius Medialis (GM) estimated by MUNE in the VNG side compared to the FNG side. No other significant differences in axonal regeneration and muscle reinnervation were evident at either electrodiagnostic, histomorphology studies or muscle weight. Conclusions: This experimental model showed slight differences in nerve regeneration between VNGs and FNGs, but cannot support a high clinical advantage for VNGs. The results of this study show that VNGs are not strongly superior to FNGs in the rat model, even in avascular beds. Clinical advantages of VNGs are likely to be limited to extensive and thick nerve defects and can only be assessed on experimental model with bigger animals. Also, we showed that the MUNE technique provided a reliable and reproducible evaluation of functional outcomes in the rat sciatic nerve and defined a reproducible protocol for functional evaluation of muscle reinnervation.