Three-dimensional (3D) printing is becoming a promising tool for drug delivery, tissue modeling, fabrication, and regeneration. This chapter discusses the most recent advances and the state-of-the-art applications of 3D printing and bioprinting, including the use of models, scaffolds, biopapers, ...
Bioprinted iPSC-derived cancer tissues will aid in the study of early cancer development and precision oncology to discover patient-specific drugs. In this review, we present a brief summary of the combined use of two powerful technologies, iPSC technology, and 3D bioprinting in health-care ...
Finally, the paper identifies nine significant applications of 3D bioprinting for the printing of skin. This technology provides disruptive innovation to change the way of treatment and surgery. Scientists are continuously focussing on constructing functional skin tissue. 3D bioprinting can quickly ...
3D bioprinting technology for regenerative medicine applications Furthermore, applications of 3D bioprinting in regenerative medicine, evolving strategies and future perspectives are summarized.doi:10.18063/IJB.2016.02.010Dhak... D Sundaramurthi,S Rauf,C Hauser - 《国际生物打印期刊》 被引量: 7发表: 201...
However, limited spatial resolution continues to impede the progress of traditional 3D bioprinting methods in replicating structurally complex tissues. In extrusion-based techniques, it is common practice to use extruded filaments with diameters above 100 μm to restrict the shear pressures exerted on ...
International Journal of Molecular Sciences Review Applications of Alginate-Based Bioinks in 3D Bioprinting Eneko Axpe * and Michelle L. Oyen Nanoscience Centre, Department of Engineering, Cambridge University, Cambridge CB3 0FF, UK; mlo29@eng.cam.ac.uk * Correspondence: ea450@cam.ac.uk; Tel.:...
3D printing, in manufacturing, any of several processes for fabricating three-dimensional objects by layering two-dimensional cross sections sequentially, one on top of another. The process is analogous to the fusing of ink or toner onto paper in a print
3D bioprintingcell encapsulationbiomaterialextracellular matrixcross-linkingpolymerHydrogels are highly hydrated polymeric networks used in tissue engineering to homogenously encapsulate cells and other biological molecules. This class of biomaterials is of particular interest because of their structural similarity ...
In cancer research, 3D bioprinting allows researchers to more closely replicate events that occur when cancer cells migrate from a primary location to a secondary site, as well as model events in the environment of the secondary site. 3D bioprinting may also be used instead ...
Applying 3D Bioprinting to Tissue Engineering Tissue Engineering encompasses a mixture of materials science and engineering-based methods, applied to biological cells, to replace or grow tissues. The formation of new tissues is generally through a scaffold, which can either be implanted into a living...