Biologically active and biomimetic dual gelatin scaffolds for tissue engineering
Sanchez, P.; Pedraz, J. L.; Orive, G.
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES
2017
VL / 98 - BP / 486 - EP / 494
abstract
We have designed, developed and optimized Genipin cross-linked 3D gelatin scaffolds that were biologically active and biomimetic, show a dual activity both for growth factor and cell delivery. Type B gelatin powder was dissolved in DI water. 100 mg of genipin was dissolved in 10 ml of DI water. Three genipin concentrations were prepared: 0.1%, 0.2% and 0.3% (w/v). Solutions were mixed at 40 degrees C and under stirring and then left crosslinking for 72 h. Scaffolds were obtained by punching 8 mm-cylinders into ethanol 70% solution for 10 min and then freeze-drying. Scaffolds were biologically, biomechanically and morphologically evaluated. Cell adhesion and morphology of Dl-Mesenchymal stem cells (MSCs) and L-929 fibroblast was studied. Vascular endothelial grwoth factor (VEGF) and Sonic hedgehog (SHH) were used as model proteins. Swelling ratio increased and youngis module decreased along with the concentration of genipin. All scaffolds were biocompatible according to the toxicity test. MSC and L-929 cell adhesion improved in 0.2% of genipin, obtaining better results with MSCs. VEGF and SHH were released from the gels. This preliminary study suggest that the biologically active and dual gelatin scaffolds may be used for tissue engineering approaches like bone regeneration. (C) 2017 Elsevier B.V. All rights reserved.
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