Skin and skin appendages are vulnerable to injury, requiring rapidly reliable regeneration
methods. In recent years, 3D bioprinting has shown potential for wound repair and …

Hydrogels with tailor‐made swelling‐shrinkable properties have aroused considerable
interest in numerous biomedical domains. For example, as swelling is a key issue for blood …

Extrusion-based bioprinting is one of the leading manufacturing techniques for tissue
engineering and regenerative medicine. Its primary limitation is the lack of materials, known …

Abstract 3D bioprinting involves the combination of 3D printing technologies with cells,
growth factors and biomaterials, and has been considered as one of the most advanced …

Abstract 3D printing enables the complex or customized structures production in high speed
and resolution. However, the lack of bio-based materials with user-defined biochemical and …

Agarose is a natural polysaccharide polymer having unique characteristics that give reason
to consider it for tissue engineering applications. Special characteristics of agarose such as …

Bioprinting techniques have been flourishing in the field of biofabrication with pronounced
and exponential developments in the past years. Novel biomaterial inks used for the …

Bioprinting researchers agree that “printability” is a key characteristic for bioink
development, but neither the meaning of the term nor the best way to experimentally …

Marine resources have tremendous potential for developing high-value biomaterials. The
last decade has seen an increasing number of biomaterials that originate from marine …

Bioprinting is rapidly being adopted as a major method for fabricating tissue engineering
constructs. Through the precise deposition of cell-and bioactive molecule-laden materials …