Litcius/Paper detail

Effects of Processing Parameters of 3D Bioprinting on the Cellular Activity of Bioinks

Jaideep Adhikari, Avinava Roy, Anindya Das, Manojit Ghosh, Sabu Thomas, Arijit Sinha, Jinku Kim, Prosenjit Saha

2020Macromolecular Bioscience145 citationsDOI

Abstract

In this review, few established cell printing techniques along with their parameters that affect the cell viability during bioprinting are considered. 3D bioprinting is developed on the principle of additive manufacturing using biomaterial inks and bioinks. Different bioprinting methods impose few challenges on cell printing such as shear stress, mechanical impact, heat, laser radiation, etc., which eventually lead to cell death. These factors also cause alteration of cells phenotype, recoverable or irrecoverable damages to the cells. Such challenges are not addressed in detail in the literature and scientific reports. Hence, this review presents a detailed discussion of several cellular bioprinting methods and their process-related impacts on cell viability, followed by probable mitigation techniques. Most of the printable bioinks encompass cells within hydrogel as scaffold material to avoid the direct exposure of the harsh printing environment on cells. However, the advantages of printing with scaffold-free cellular aggregates over cell-laden hydrogels have emerged very recently. Henceforth, optimal and favorable crosslinking mechanisms providing structural rigidity to the cell-laden printed constructs with ideal cell differentiation and proliferation, are discussed for improved understanding of cell printing methods for the future of organ printing and transplantation.

Topics & Concepts

3D bioprintingScaffoldSelf-healing hydrogelsBiomaterialTissue engineeringNanotechnologyViability assayMaterials scienceCellChemistryBiomedical engineeringEngineeringBiochemistryPolymer chemistry3D Printing in Biomedical ResearchAdditive Manufacturing and 3D Printing TechnologiesInnovative Microfluidic and Catalytic Techniques Innovation