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Mussel-inspired agarose hydrogel scaffolds for skin tissue engineering


ABSTRACT: Polysaccharide hydrogels are widely used in tissue engineering because of their superior biocompatibility and low immunogenicity. However, many of these hydrogels are unrealistic for practical applications as the cost of raw materials is high, and the fabrication steps are tedious. This study focuses on the facile fabrication and optimization of agarose-polydopamine hydrogel (APG) scaffolds for skin wound healing. The first study objective was to evaluate the effects of polydopamine (PDA) on the mechanical properties, water holding capacity and cell adhesiveness of APG. We observed that APG showed decreased rigidity and increased water content with the addition of PDA. Most importantly, decreased rigidity translated into significant increase in cell adhesiveness. Next, the slow biodegradability and high biocompatibility of APG with the highest PDA content (APG3) was confirmed. In addition, APG3 promoted full-thickness skin defect healing by accelerating collagen deposition and promoting angiogenesis. Altogether, we have developed a straightforward and efficient strategy to construct functional APG scaffold for skin tissue engineering, which has translation potentials in clinical practice. Graphical abstract Image 1 Highlights • Agarose-polydopamine hydrogel scaffold was developed via a simple two-step approach.• In vitro and in vivo experiments show that the scaffold holds biocompatibility and biodegradability.• The cell migration rate on the scaffold is high and cells can migrate from the surface to the inside of scaffold.• The scaffold can facilitate wound healing by promoting collagen deposition and angiogenesis.

SUBMITTER: Su T 

PROVIDER: S-EPMC7509181 | biostudies-literature | 2020 Sep

REPOSITORIES: biostudies-literature

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