The significance of bioink suitability for the extrusion bioprinting of tissue-like constructs
cannot be overemphasized. Gelatin, derived from the hydrolysis of collagen, not only can …

Bioprinting is an emerging technique for the fabrication of 3D cell‐laden constructs.
However, the progress for generating a 3D complex physiological microenvironment has …

The development of exceptional bioinks with excellent printability, high fidelity, and excellent
cell viability maintenance for extrusion bioprinting remains a major challenge. Gelatin is an …

Bioprinting has emerged as a flexible tool in regenerative medicine with potential in a variety
of applications, including eventual large-scale biomanufacturing of tissue products. One of …

Abstract 3D-bioprinting has become a valid technique for tissue and organ regeneration, as
the printing of living cells is allowed while the hydrogel-based ink material provides them …

Three-dimensional bioprinting continues to advance as an attractive biofabrication
technique to employ cell-laden hydrogel scaffolds in the creation of precise, user-defined …

The recently developed 3D bioprinting technology has greatly improved the ability to
generate biomimetic tissues that are structurally and functionally relevant to their human …

Bioinks are formulations of biomaterials and living cells, sometimes with growth factors or
other biomolecules, while extrusion bioprinting is an emerging technique to apply or deposit …

Abstract Gelatin methacryloyl (GelMA)/alginate-based hydrogels have shown great promise
in bioprinting, but their printability is limited at room temperature. In this paper, we present …

Bioprinting is fast emerging as a viable technique for organ fabrication. Though various
types of bioprinting methods have been developed, the most commonly used bioprinting is …