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Biohybrids for spinal cord injury repair

Fecha de publicación: Fecha Ahead of Print:

Autores de CIPF

Participantes ajenos a CIPF

  • Martínez-Ramos C
  • Doblado LR
  • Mocholi EL
  • Petidier MS
  • Pradas MM

Grupos de Investigación

Abstract

Spinal cord injuries (SCIs) result in the loss of sensory and motor function with massive cell death and axon degeneration. We have previously shown that transplantation of spinal cord-derived ependymal progenitor cells (epSPC) significantly improves functional recovery after acute and chronic SCI in experimental models, via neuronal differentiation and trophic glial cell support. Here, we propose an improved procedure based on transplantation of epSPC in a tubular conduit of hyaluronic acid containing poly (lactic acid) fibres creating a biohybrid scaffold. In vitro analysis showed that the poly (lactic acid) fibres included in the conduit induce a preferential neuronal fate of the epSPC rather than glial differentiation, favouring elongation of cellular processes. The safety and efficacy of the biohybrid implantation was evaluated in a complete SCI rat model. The conduits allowed efficient epSPC transfer into the spinal cord, improving the preservation of the neuronal tissue by increasing the presence of neuronal fibres at the injury site and by reducing cavities and cyst formation. The biohybrid-implanted animals presented diminished astrocytic reactivity surrounding the scar area, an increased number of preserved neuronal fibres with a horizontal directional pattern, and enhanced coexpression of the growth cone marker GAP43. The biohybrids offer an improved method for cell transplantation with potential capabilities for neuronal tissue regeneration, opening a promising avenue for cell therapies and SCI treatment.

Datos de la publicación

ISSN/ISSNe:
1932-6254, 1932-7005

Journal of Tissue Engineering and Regenerative Medicine  WILEY

Tipo:
Article
Páginas:
509-521
PubMed:
30726582

Citas Recibidas en Web of Science: 18

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Keywords

  • biomaterial; hyaluronic acid; neural differentiation; poly-lactic fibres; spinal cord injury

Proyectos asociados

Transplant of combined cell therapy form clinical grade iPSC-derived cells with neuroprotective small chemicals in a SCI rat model for central regeneration of spinal pathways

Investigador Principal: M VICTORIA MORENO MANZANO

FUNDACION LA MARATO DE TV3 . 2018

Combinatory treatment of Neural precursor cells and a new nanoconjugate of Fasudil for the clinical application in Acute Spinal Cord Injury

Investigador Principal: MARIA JESUS VICENT DOCON

FUNDACION LA MARATO DE TV3 . 2018

Nuevo biomaterial bio-activo para la regeneración de lesiones medulares

Investigador Principal: M VICTORIA MORENO MANZANO

MINISTERIO DE ECON. Y COMPET. . 2019

Validación farmacológica in vivo de nanofármacos inhibidores de ROCK2 en cáncer de mama metastásico y lesión medular

Investigador Principal: M VICTORIA MORENO MANZANO

AGENCIA VALENCIANA DE INNOVACIÓN . 2019

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