Interestingly, this advanced bioprinter is capable of fabricating a diverse array of tissues, including both soft brain tissue and harder materials such as cartilage and bone.

[Related: Scientists have 3D bioprinted functioning human brain tissue.] ...

Researchers at the University of Melbourne have developed a new 3D bioprinting technique that can rapidly create accurate ...

BBG is effective in bone regeneration by promoting hydroxyapatite formation and has an adjustable degradation rate to suit different repair needs. Therefore, its application in 3D bioprinting ...

A ready-to-use bioink called TissueFab ® Bone Vis/405 nm, low endotoxin is intended for extrusion-based 3D bioprinting and subsequent crosslinking with exposure to 405 nm visible light.

TissueFab ® bioink Bone UV/365 nm is specifically crafted to enhance the osteogenic differentiation of stem cells. It is structured around a hydrogel system composed of Gelatin methacryloyl ...

The pioneering concept of bioprinting is delivering promising results according to one of the early ... For example stem cells could be programmed to become cells that make up bone tissue or cartilage ...

Bioprinting involves using specialised 3D printers to print living cells creating new skin, bone, tissue or organs for transplantation. The technique has the potential to revolutionise medicine, and ...