Journal of Tissue Engineering (Jul 2020)

Hydrogel and neural progenitor cell delivery supports organotypic fetal spinal cord development in an model of prenatal spina bifida repair

  • Juan C Biancotti,
  • Kendal A Walker,
  • Guihua Jiang,
  • Julie Di Bernardo,
  • Lonnie D Shea,
  • Shaun M Kunisaki

DOI
https://doi.org/10.1177/2041731420943833
Journal volume & issue
Vol. 11

Abstract

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Studying how the fetal spinal cord regenerates in an ex vivo model of spina bifida repair may provide insights into the development of new tissue engineering treatment strategies to better optimize neurologic function in affected patients. Here, we developed hydrogel surgical patches designed for prenatal repair of myelomeningocele defects and demonstrated viability of both human and rat neural progenitor donor cells within this three-dimensional scaffold microenvironment. We then established an organotypic slice culture model using transverse lumbar spinal cord slices harvested from retinoic acid–exposed fetal rats to study the effect of fibrin hydrogel patches ex vivo . Based on histology, immunohistochemistry, gene expression, and enzyme-linked immunoabsorbent assays, these experiments demonstrate the biocompatibility of fibrin hydrogel patches on the fetal spinal cord and suggest this organotypic slice culture system as a useful platform for evaluating mechanisms of damage and repair in children with neural tube defects.