6533b85dfe1ef96bd12bdf65

RESEARCH PRODUCT

Biomaterials coated by dental pulp cells as substrate for neural stem cell differentiation

María Sancho-telloManuel MonleónJosé Miguel SoriaM. Angeles Garcia EsparzaJose V. BaganCarmen CardaVicente Mirabet

subject

Stromal cellMaterials scienceBiomedical EngineeringBiomaterialsCell therapyMiceNerve growth factorCoated Materials BiocompatibleNeural Stem Cellsstomatognathic systemNeurotrophic factorsAnimalsHumansNeural cellCells CulturedDental PulpCell ProliferationNeuronsStem cellBrain-Derived Neurotrophic FactorMetals and AlloysBiomaterialCell adhesionCell DifferentiationNeural stem cellRatsCell biologystomatognathic diseasesCell cultureMAQUINAS Y MOTORES TERMICOSCeramics and CompositesCell cultureStem cellNeural cellBiomedical engineering

description

[EN] This study is focused on the development of an in vitro hybrid system, consisting in a polymeric biomaterial covered by a dental pulp cellular stroma that acts as a scaffold offering a neurotrophic support for the subsequent survival and differentiation of neural stem Cells. In the first place, the behavior of dental pulp stroma on the polymeric biomaterial based on ethyl acrylate and hydroxy ethyl acrylate copolymer was studied. For this purpose, cells from normal human third molars were grown onto 0.5-mm-diameter biomaterial discs. After cell culture, quantification of neurotrophic factors generated by the stromal cells was performed by means of an ELISA assay. In the second place, survival and differentiation of adult murine neural stem cells on the polymeric biomaterials covered by dental pulp stromal cells was studied. The results show the capacity of dental pulp cells to uniformly coat the majority of the material's surface and to secrete neurotrophic factors that become crucial for a subsequent differentiation of neural stem cells. The use of stromal cells cultured on scaffolding biomaterials provides neurotrophic pumps that may suggest new criteria for the design of cell therapy experiments in animal models to assist the repair of lesions in Central Nervous System.

yearjournalcountryeditionlanguage
2011-01-01
10.13039/501100004837https://dx.doi.org/10.1002/jbm.a.33032