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Bioprinting of Stem Cell Spheroids Followed by Post‐Printing Chondrogenic Differentiation for Cartilage Tissue Engineering

Monize Caiado Decarli, Adrián Seijas‐Gamardo, Francis L. C. Morgan, Paul Wieringa, Matthew B. Baker, Jorge Vicente Lopes da Silva, Ângela Maria Moraes, Lorenzo Moroni, Carlos Mota

2023Advanced Healthcare Materials55 citationsDOIOpen Access PDF

Abstract

Cartilage tissue presents low self-repair capability and lesions often undergo irreversible progression. Structures obtained by tissue engineering, such as those based in extrusion bioprinting of constructs loaded with stem cell spheroids may offer valuable alternatives for research and therapeutic purposes. Human mesenchymal stromal cell (hMSC) spheroids can be chondrogenically differentiated faster and more efficiently than single cells. This approach allows obtaining larger tissues in a rapid, controlled and reproducible way. However, it is challenging to control tissue architecture, construct stability, and cell viability during maturation. Herein, this work reports a reproducible bioprinting process followed by a successful post-bioprinting chondrogenic differentiation procedure using large quantities of hMSC spheroids encapsulated in a xanthan gum-alginate hydrogel. Multi-layered constructs are bioprinted, ionically crosslinked, and post chondrogenically differentiated for 28 days. The expression of glycosaminoglycan, collagen II and IV are observed. After 56 days in culture, the bioprinted constructs are still stable and show satisfactory cell metabolic activity with profuse extracellular matrix production. These results show a promising procedure to obtain 3D models for cartilage research and ultimately, an in vitro proof-of-concept of their potential use as stable chondral tissue implants.

Topics & Concepts

3D bioprintingChondrogenesisSpheroidTissue engineeringExtracellular matrixCartilageMesenchymal stem cellBiomedical engineeringCell biologyRegenerative medicineStromal cellStem cellMatrix (chemical analysis)Materials scienceCellular differentiationGlycosaminoglycanChemistryIn vitroAnatomyBiologyPathologyMedicineBiochemistryComposite materialGene3D Printing in Biomedical ResearchOsteoarthritis Treatment and MechanismsSilk-based biomaterials and applications