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  • Title: A hybrid silk/RADA-based fibrous scaffold with triple hierarchy for ligament regeneration.
    Author: Chen K, Sahoo S, He P, Ng KS, Toh SL, Goh JC.
    Journal: Tissue Eng Part A; 2012 Jul; 18(13-14):1399-409. PubMed ID: 22429111.
    Abstract:
    While silk-based microfibrous scaffolds possess excellent mechanical properties and have been used for ligament tissue-engineering applications, the microenvironment in these scaffolds is not biomimetic. We hypothesized that coating a hybrid silk scaffold with an extracellular matrix (ECM)-like network of self-assembling peptide nanofibers would provide a biomimetic three-dimensional nanofibrous microenvironment and enhance ligament tissue regeneration after bone marrow-derived mesenchymal stem cell (BMSC)-seeding. A novel scaffold possessing a triple structural hierarchy comprising macrofibrous knitted silk fibers, a silk microsponge, and a peptide nanofiber mesh was developed by coating self-assembled RADA16 peptide nanofibers on a silk microfiber-reinforced-sponge scaffold. Compared with the uncoated control, RADA-coated scaffolds showed enhanced BMSC proliferation, metabolism, and fibroblastic differentiation during the 3 weeks of culture. BMSC-seeded RADA-coated scaffolds showed an increasing temporal expression of key fibroblastic ECM proteins (collagen type I and III, tenascin-C), with a significantly higher tenascin-C expression compared with the controls. BMSC-seeded RADA-coated scaffolds also showed a temporal increase in total collagen and glycosaminoglycan production (the amount produced being higher than in control scaffolds) during 3 weeks of culture, and possessed 7% higher maximum tensile load compared with the BMSC-seeded control scaffolds. The results indicate that the BMSC-seeded RADA-coated hybrid silk scaffold system has the potential for use in ligament tissue-engineering applications.
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