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 …

In this paper, a spotlight is shown on polysaccharides based biomaterials which have
surfaced as a versatile platform for different biomedical applications including drug delivery …

Abstract Three-dimensional (3D) bioprinting enables a controlled deposition of cells,
biomaterials, and biological compounds (ie, bioinks) to build complex 3D biological models …

The 3D-printed hybrid biodegradable hydrogels composed of alginate, gelatin, and
cellulose nanocrystals (CNCs) were prepared to provide a favorable environment for cell …

Alginate is a natural polysaccharide that typically originates from various species of algae.
Due to its low cost, good biocompatibility, and rapid ionic gelation, the alginate hydrogel has …

Three‐dimensional printed biomaterials used as personalized tissue substitutes have the
ability to promote and enhance regeneration in areas of defected tissue. The challenge with …

Extrusion bioprinting has been widely used to extrude continuous filaments of bioink (or the
mixture of biomaterial and living cells), layer-by-layer, to build three-dimensional constructs …

Additive biofabrication (3D bioprinting) makes it possible to create scaffolds with precise
geometries, control over pore interconnectivity and architectures that are not possible with …

Besides molecular and phenotypic variations observed in cancer cells, intratumoral
heterogeneity also occurs in the tumor microenvironment. Correlative stiffness maps of …

We developed, characterized, and examined the hemostatic potential of sodium alginate-
based Ca 2+ and Zn 2+ composite hydrogel (SA-CZ). SA-CZ hydrogel showed substantial in …