Abstract

After spinal cord injury, gliomesenchymal scaring inhibits axonal regeneration as a physical barrier. In peripheral nerve injuries, native spider silk was shown to be an effective scaffold to facilitate axonal re-growth and nerve regeneration. This study tested a two-composite scaffold made of longitudinally oriented native spider silk containing a Haemocomplettan fibrin sheath to bridge lesions in the spinal cord and enhance axonal sprouting. In vitro cultivation of neuronal cells on spider silk and fibrin revealed no cytotoxicity of the scaffold components. When spinal cord tissue was cultured on spider silk that was reeled around a metal frame, migration of different cell types, including neurons and neural stem cells, was observed. The scaffold was implanted into spinal cord lesions of four Wistar rats to evaluate the physical stress caused on the animals and examine the bridging potential for axonal sprouting and spinal cord regeneration. However, the implantation in-vivo resulted in a granulomatous foreign body reaction. Spider silk might be responsible for the strong immune response. Thus, the immune response to native spider silk seems to be stronger in the central nervous system than it is known to be in the peripheral body complicating the application of native spider silk in spinal cord injury treatment.

Highlights

  • According to the National Spinal Cord Injury Statistical Centre (NSCISC) 17,900 new cases of spinal cord injuries (SCI) are on record in the United States each year

  • Cultivation of olfactory ensheathing cells on spider silk and fibrin As a first step, cells from the central nervous system seeded on spider silk and fibrin were evaluated

  • In contrast to native silkworm silk of Bombyx mori, which in common belief induces a stronger immune response due to the coating protein sericin, spider silk showed no or only mild immune responses when applied in a medical setting [22–24]

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Summary

Introduction

According to the National Spinal Cord Injury Statistical Centre (NSCISC) 17,900 new cases of spinal cord injuries (SCI) are on record in the United States each year. These lead to a prevalence of approximately 296,000 persons affected in 2021 [1]. Functional limitations following SCI, which depend on the spinal level and the pathology of the damage, can be rigorous. Application of native spider silk in traumatized rat’s spinal cord and analysis, decision to publish, or preparation of the manuscript

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