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Advances in Hybrid Fabrication toward Hierarchical Tissue Constructs

Paul D. Dalton, Tim B. F. Woodfield, Vladimir Mironov, Jürgen Gröll

2020Advanced Science134 citationsDOIOpen Access PDF

Abstract

The diversity of manufacturing processes used to fabricate 3D implants, scaffolds, and tissue constructs is continuously increasing. This growing number of different applicable fabrication technologies include electrospinning, melt electrowriting, volumetric-, extrusion-, and laser-based bioprinting, the Kenzan method, and magnetic and acoustic levitational bioassembly, to name a few. Each of these fabrication technologies feature specific advantages and limitations, so that a combination of different approaches opens new and otherwise unreachable opportunities for the fabrication of hierarchical cell-material constructs. Ongoing challenges such as vascularization, limited volume, and repeatability of tissue constructs at the resolution required to mimic natural tissue is most likely greater than what one manufacturing technology can overcome. Therefore, the combination of at least two different manufacturing technologies is seen as a clear and necessary emerging trend, especially within biofabrication. This hybrid approach allows more complex mechanics and discrete biomimetic structures to address mechanotransduction and chemotactic/haptotactic cues. Pioneering milestone papers in hybrid fabrication for biomedical purposes are presented and recent trends toward future manufacturing platforms are analyzed.

Topics & Concepts

FabricationNanotechnologyComputer scienceMaterials scienceMedicineAlternative medicinePathologyAdditive Manufacturing and 3D Printing Technologies3D Printing in Biomedical ResearchBone Tissue Engineering Materials
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