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Fabrication of a dual-layer cell-laden tubular scaffold for nerve regeneration and bile duct reconstruction

Xixia Liu, Jianing Yan, Jingyi Liu, Yifan Wang, Jun Yin, Jianzhong Fu

2021Biofabrication27 citationsDOI

Abstract

Abstract Tubular scaffolds serve as a controllable extracellular environment to guide the repair and regeneration of tissues. But it is still a challenge to achieve both excellent mechanical properties and cell compatibility of artificial scaffolds for long-term structural and biological stability. In this study, a four-step solution casting method was developed to fabricate dual-layer cell-laden tubular scaffolds for nerve and bile duct regeneration. The dual-layer tubular scaffold consisted of a bone marrow mesenchymal stem cells (BMSCs)-laden hydrogel inner layer and an outer layer of gelatin methacrylate (GelMA)/polyethylene glycol diacrylate. While the inner layer had a good biocompatibility, the outer layer had desired mechanical properties. The interfacial toughness, Young’s modulus, maximum tensile strain, and compressive modulus of dual-layer tubular scaffolds were 65 J m −2 , 122.37 ± 23.21 kPa, 100.87 ± 40.10%, and 39.14 ± 18.56 N m −1 , respectively. More importantly, the fabrication procedure was very cell-friendly, since the BMSC viability encapsulated in the inner layer of 10% (w/v) GelMA reached 94.68 ± 0.43% after 5 d of culture. Then, a preliminary evaluation of the potential application of dual-layer tubular scaffolds as nerve conduits and biliary scaffolds was performed, and demonstrated that the cell-laden dual-layer tubular scaffolds proposed in this work are expected to extend the application of tubular scaffolds in tissue engineering.

Topics & Concepts

Materials scienceBiomedical engineeringScaffoldBiocompatibilityTissue engineeringUltimate tensile strengthLayer by layerFabricationSelf-healing hydrogelsLayer (electronics)Composite materialPolymer chemistryMedicineMetallurgyAlternative medicinePathology3D Printing in Biomedical ResearchElectrospun Nanofibers in Biomedical ApplicationsTissue Engineering and Regenerative Medicine
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