Decellularized Nerve Scaffold in a Rat Model of Extensive Peripheral Nerve Damage
T.V. Rusinova, R.A. Vinogradov, A.S. Asyakina, G.P. Chuprynin, A.A. Fomenko, E.A. Solop, K.I. Melkonyan

TL;DR
This study shows that decellularized nerve scaffolds can effectively repair large nerve injuries in rats, offering a potential alternative to autografts.
Contribution
A modified decellularization protocol for rat sciatic nerves is proposed and shown to preserve nerve structure while removing cellular material.
Findings
Decellularization reduced DNA content to 48.17 ng/mg, compared to 221.51 ng/mg in native nerves.
Decellularized scaffolds supported nerve fiber regeneration and showed no macrophage response.
Implanted scaffolds restored motor and sensory fibers, with Schwann cells and perineurium formation observed.
Abstract
The aim of the study was to develop a modified protocol for rat sciatic nerve decellularization and evaluate its efficacy in a rat model of an extensive peripheral nerve defect. The study described a modified detergent-enzymatic decellularization protocol to create a decellularized nerve scaffold. A decellularization process (24 h) included the sequential treatment of a rat sciatic nerve with the solutions of trypsin–versene, 1% Triton X-100, 4% sodium deoxycholate, phosphate-buffered saline, and pancreatic DNase I. We modelled an extended defect of the sciatic nerve (15±2 mm), and Wistar rats were implanted with autografts or decellularized nerve scaffolds. The nerve recovery was assessed on day 90 after implantation using an immunohistochemistry analysis of the total count of nerve fibers, intact motor fibers, and myelinated fibers. The results of the histological examination and…
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Taxonomy
TopicsTissue Engineering and Regenerative Medicine · Nerve injury and regeneration · Xenotransplantation and immune response
