Abstract
Recurrent laryngeal nerve (RLN) injury remains a challenge due to the lack of effective treatments. In this study, we established a new drug delivery system consisting of a tube of Heal-All Oral Cavity Repair Membrane loaded with laminin and neurotrophic factors and tested its ability to promote functional recovery following RLN injury. We created recombinant fusion proteins consisting of brain-derived neurotrophic factor (BDNF) and glial cell line-derived neurotrophic factor (GDNF) fused to laminin-binding domains (LBDs) in order to prevent neurotrophin diffusion. LBD-BDNF, LBD-GDNF, and laminin were injected into a collagen tube that was fitted to the ends of the transected RLN in rats. Functional recovery was assessed 4, 8, and 12 weeks after injury. Although vocal fold movement was not restored until 12 weeks after injury, animals treated with the collagen tube loaded with laminin, LBD-BDNF and LBD-GDNF showed improved recovery in vocalisation, arytenoid cartilage angles, compound muscle action potentials and regenerated fibre area compared to animals treated by autologous nerve grafting (p < 0.05). These results demonstrate the drug delivery system induced nerve regeneration following RLN transection that was superior to that induced by autologus nerve grafting. It may have potential applications in nerve regeneration of RLN transection injury.
Highlights
peripheral nerve (PN) have the ability to regenerate after injury, regeneration is dependent upon the microenvironment[6]; providing an appropriate microenvironment is critical for PN regeneration and functional recovery[35]
We used a rat model of recurrent laryngeal nerve (RLN) injury to test a novel drug delivery system combining a collagen tube combined with 2 neurotrophic factor fusion proteins
Because previous research demonstrated that linear ordered structure could support a linear order guidance for spouting axons[6], the basement membrane which exhibited approximate linear ordered structure was the interior surface of the prepared collagen tube
Summary
Heal-All Oral Cavity Repair Membrane is a xeno-acellular dermal matrix that is filled with collagen and dissolves in approximately 6 months. We have established a sustained-release drug delivery system composed of a Heal-All collagen tube containing laminin and neurotrophic factors. We injected the collagen tubes with laminin, LBD-BDNF and/or LBD-GDNF This procedure represents the first use of Heal-All Oral Cavity Repair Membrane, as well as the combination of LBD-BDNF and LBD-GDNF, for the treatment of RLN injury. We propose that this drug delivery system may be useful for the prevention of misdirected reinnervation during RLN regeneration
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