The emergence of 3D bioprinting has allowed a variety of hydrogel-based “bioinks” to be
printed in the presence of cells to create precisely defined cell-loaded 3D scaffolds in a …

Bioinks are employed in the fabrication of 3D scaffolds containing cells and macromolecules
that can be applied in regenerative medicine. The use of such bioinks facilitates the …

Three-dimensional (3D) bioprinting is important in the development of complex tissue
structures for tissue engineering and regenerative medicine. However, the materials used …

Background: The tissue engineering and regenerative medicine approach require
biomaterials which are biocompatible, easily reproducible in less time, biodegradable and …

The encapsulation of cells within gel‐phase materials to form bioinks offers distinct
advantages for next‐generation 3D bioprinting. 3D bioprinting has emerged as a promising …

Bioprinting is an advanced fabrication approach to engineer complex living structures as the
conventional fabrication methods are incapable of integrating structural and biological …

Bioprinting can be defined as the art of combining materials and cells to fabricate designed,
hierarchical 3D hybrid constructs. Suitable materials, so called bioinks, have to comply with …

Bioprinting is a powerful technique that allows precise and controlled 3D deposition of
biomaterials in a predesigned, customizable, and reproducible manner. Cell-laden hydrogel …

DOI: 10.1002/adma. 201604983 of interest in applications ranging from cartilage tissue
engineering [12] to the expansion of embryonic stem cells.[13] Precrosslinking (applying 10 …

Abstract 3D bioprinting is an emerging technology for arranging cells and biomaterials in
3D, with the goal to develop functional substitutes for damaged tissue. Photo-crosslinkable …