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3D-printed microstructured alginate scaffolds for neural tissue engineering

Jianfeng Li, Benjamin Hietel, Michael G. K. Brunk, Armin Reimers, Christian Willems, Thomas Groth, Holger Cynis, Rainer Adelung, Fabian Schütt, Wesley D. Sacher, Joyce K. S. Poon

2024Trends in biotechnology26 citationsDOIOpen Access PDF

Abstract

Alginate (Alg) is a versatile biopolymer for scaffold engineering and a bioink component widely used for direct cell printing. However, due to a lack of intrinsic cell-binding sites, Alg must be functionalized for cellular adhesion when used as a scaffold. Moreover, direct cell-laden ink 3D printing requires tedious disinfection procedures and cell viability is compromised by shear stress. Here, we demonstrate proof-of-concept, bioactive additive-free, microstructured Alg (M-Alg) scaffolds for neuron culture. The M-Alg scaffold was formed by introducing tetrapod-shaped ZnO (t-ZnO) microparticles into the ink as structural templates for interconnected channels and textured surfaces in the 3D-printed Alg scaffold, which were subsequently removed. Neurons exhibited significantly improved adhesion and growth on these M-Alg scaffolds compared with pristine Alg (P-Alg) scaffolds, with extensive neurite outgrowth and spontaneous neural activity, indicating the maturation of neuronal networks. These transparent, porous, additive-free Alg-based scaffolds with neuron affinity are promising for neuroregenerative and organoid-related research.

Topics & Concepts

ScaffoldNeuriteTissue engineeringNeural tissue engineeringBiopolymerCell adhesionNanotechnologyAdhesionChemistryTemplateMaterials scienceBiomedical engineeringPolymerIn vitroComposite materialBiochemistryMedicine3D Printing in Biomedical ResearchBone Tissue Engineering MaterialsGraphene and Nanomaterials Applications