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Hydrogels and Bioprinting in Bone Tissue Engineering: Creating Artificial Stem‐Cell Niches for In Vitro Models

Francesca K. Lewns, Olga Tsigkou, Liam R. Cox, Ricky D. Wildman, Liam M. Grover, Gowsihan Poologasundarampillai

2023Advanced Materials99 citationsDOIOpen Access PDF

Abstract

Advances in bioprinting have enabled the fabrication of complex tissue constructs with high speed and resolution. However, there remains significant structural and biological complexity within tissues that bioprinting is unable to recapitulate. Bone, for example, has a hierarchical organization ranging from the molecular to whole organ level. Current bioprinting techniques and the materials employed have imposed limits on the scale, speed, and resolution that can be achieved, rendering the technique unable to reproduce the structural hierarchies and cell-matrix interactions that are observed in bone. The shift toward biomimetic approaches in bone tissue engineering, where hydrogels provide biophysical and biochemical cues to encapsulated cells, is a promising approach to enhancing the biological function and development of tissues for in vitro modeling. A major focus in bioprinting of bone tissue for in vitro modeling is creating dynamic microenvironmental niches to support, stimulate, and direct the cellular processes for bone formation and remodeling. Hydrogels are ideal materials for imitating the extracellular matrix since they can be engineered to present various cues whilst allowing bioprinting. Here, recent advances in hydrogels and 3D bioprinting toward creating a microenvironmental niche that is conducive to tissue engineering of in vitro models of bone are reviewed.

Topics & Concepts

Materials scienceSelf-healing hydrogelsTissue engineeringStem cell3D bioprintingBiomedical engineeringIn vitroNanotechnologyCell biologyBiologyPolymer chemistryEngineeringBiochemistry3D Printing in Biomedical ResearchAdditive Manufacturing and 3D Printing TechnologiesBone Tissue Engineering Materials
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