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Abstract In this research, novel 3D printed alginate–peptide hybrid scaffolds were explored for enhanced bone regeneration. Bone formation peptide-1 (BFP1) was loaded into the scaffolds to promote bone regeneration. The… Click to show full abstract
Abstract In this research, novel 3D printed alginate–peptide hybrid scaffolds were explored for enhanced bone regeneration. Bone formation peptide-1 (BFP1) was loaded into the scaffolds to promote bone regeneration. The alginate–BFP1 conjugates were synthesized via a facile EDC/NHS coupling reaction and then cross-linked in the presence of calcium ions to form hydrogel networks. The dose-dependent cytotoxicity of CaCl 2 was evaluated to optimize the amount of Ca 2+ for fabrication of scaffolds. In vitro and in vivo studies indicated that the alginate-based scaffolds provided a stable environment for the growth of human adipose-derived stem cells (hADSCs) and led to a synergistically enhanced bone regeneration.
Journal Title: Journal of Industrial and Engineering Chemistry
Year Published: 2017
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