Titlebook: 3D Bioprinting; Principles and Proto Jeremy M. Crook Book 2020 Springer Science+Business Media, LLC, part of Springer Nature 2020 Bioprinte

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https://doi.org/10.1007/978-3-030-28285-1e an in situ approach that allows 3D bioprinting of human adipose-derived stem cells (hADSCs) laden in 10%GelMa/2%HAMa (GelMa/HAMa) hydrogel. We use coaxial extrusion to obtain a core/shell bioscaffold with high cell viability, as well as adequate mechanical properties for articular cartilage regeneration and repair.

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Smruti Patel,Tanvi Bhavsar,P. C. Vinodkumarlinked to a 3D construct. The printed iPSCs continue to have self-replicating and multilineage cell induction potential in situ, and the constructs are robust and amenable to different differentiation protocols for fabricating diverse tissue types, with the potential to be applied for both research- and clinical-product development.

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Introduction: Summary of the Argument,odeling and simulation capabilities of scanned systems. After that, the necessary area of transferring the 3D model to the printer is explored. The chapter closes with a discussion of the current state-of-the-art and inherent challenges facing the research domain to achieve 3D tissue and organ print