Hyaluronic acid (HA) is of immense importance to biomaterials science and biomedical
engineering. It is finding applications in diverse areas of bioengineering ranging from …

Bioprinting is an additive manufacturing technique that focuses on developing living tissue
constructs using bioinks. Bioink is crucial in determining the stability of printed patterns …

Hyaluronic acid (HA) is widely distributed in human connective tissue, and its unique
biological and physicochemical properties and ability to facilitate biological structure repair …

Abstract Three-dimensional (3D) bioprinting has become a promising strategy for bone
manufacturing, with excellent control over geometry and microarchitectures of the scaffolds …

In 3D bioprinting, bioinks with high concentrations of polymeric materials are frequently used
to enable fabrication of 3D cell‐hydrogel constructs with sufficient stability. However, this is …

Abstract Three-dimensional (3D) bioprinting has revolutionized tissue engineering by
enabling precise fabrication with bioinks. Among these techniques, digital light processing …

Unlike the conventional techniques used to construct a tissue scaffolding, three-dimensional
(3D) bioprinting technology enables fabrication of a porous structure with complex and …

Bioprinting is a promising tool to fabricate well-organized cell-laden constructs for repair and
regeneration of articular cartilage. The selection of a suitable bioink, in terms of composition …

Development of biomaterial-based bioinks is critical for replacement and/or regeneration of
tissues and organs by three-dimensional (3D) printing techniques. However, the number of …

Biofabrication is enriching the tissue engineering field with new ways of producing
structurally organized complex tissues. Among the numerous bioinks under investigation …