Purpose The main objective of this paper is to illustrate an analytical view of different
methods of 3D bioprinting, variations, formulations and characteristics of biomaterials. This …

The formation of a nanocomposite hydrogel by the addition of inorganic nanoparticles to a
polymer hydrogel can lead to profitable printability for 3D bioprinting as well as improved …

Repairing and regenerating damaged tissues or organs and restoring their functioning has
been the ultimate aim of medical innovations. Reviving healthcare blends tissue …

Cardiac tissue engineering has emerged as a promising strategy to treat infarcted cardiac
tissues by replacing the injured region with an ex vivo fabricated functional cardiac patch …

In embedded extrusion 3D bioprinting, a temporary matrix preserves a paste-like filament
ejecting from a narrow nozzle. For granular sacrificial matrices, the methodology is known as …

Embedded bioprinting overcomes the barriers associated with the conventional extrusion‐
based bioprinting process as it enables the direct deposition of bioinks in 3D inside a …

Abstract Freeform three-dimensional (3D) printing technique is a promising additive
manufacturing field, enabling researchers to produce complex shapes with advanced …

The advent of three-dimensional (3D) bioprinting offers a feasible approach to construct
complex structures for soft tissue regeneration. Carboxymethyl cellulose (CMC) has been …

Bioprinting of vascular tissues holds great potential in tissue engineering and regenerative
medicine. However, challenges remain in fabricating biocompatible and versatile scaffolds …

Natural hydrogels with low viscosity and high cytocompatibility are limited in their application
as bioinks because their poor mechanical properties lead to constructs of low resolution that …