Bioprinting covers the precise deposition of cells, biological scaffolds and growth factors to
produce desired tissue models. The main focus of bioprinting is the creation of functional …

The emergence of new technologies in tissue engineering and regenerative medicine
promises to make a number of previously impossible applications a reality, such as …

Automated 3D fabrication technologies are being adopted in the life sciences, in particular,
in the precise and reproducible engineering of tissues. Active research, development, and …

Abstract 3D bioprinting has become a flexible technical means used in many fields.
Currently, research on 3D bioprinting is mainly focused on the use of mammalian cells to …

Abstract 3D bioprinting–the fabrication of geometrically complex 3D structures from
biocompatible materials containing living cells using additive manufacturing technologies–is …

With the advances of stem cell research, development of intelligent biomaterials and three-
dimensional biofabrication strategies, highly mimicked tissue or organs can be engineered …

What You Will Learn in This Chapter Bioprinting is a digital biofabrication method that is
applied to generate complex and heterogenic 3D cell culture systems and living tissues. It …

3D bioprinting technology is evolving in complexity to enable human-scale, high-resolution,
and multi-cellular constructs to better mimic the native tissue microenvironment. The ultimate …

The development of three-dimensional culture scaffolds represents a revolutionary step
forward for in vitro culture systems. Various synthetic and naturally occurring substrates have …

Until recently, bioprinting was largely limited to highly interdisciplinary research teams, as
the process requires significant input from specialists in the fields of materials science …