BIO INX pioneers 3D bioprinting with ready-to-use biomaterials, bridging the gap between regenerative medicine research and real-world clinical applications.

D bioprinting uses living cells as "ink" to create functional tissues. Discover how this technology is transforming medicine ...

such as the rigid structure of bone surrounded by pliable cartilage, all with elegant and precise geometric properties, researchers at The University of Texas at Austin have developed a fast, precise ...

When it comes to creating objects with vastly different physical properties, materials fail either at the interface or when they come in contact with each other. The condition is similar to how the ...

Bristle worms have protrusions that act like a 3D printer, helping us to understand how cells regenerate. Most people will ...

Our goal is to integrate genome editing with state-of-the-art 3D bioprinting modalities and demonstrate the functional advantage of genome-edited inflammation-resistant 3D bioprinted constructs in ...

With the use of 3-D printers, medical personnel can spray multiple layers of skin over a burn. As this technology advances, doctors are capable of treating even the more severe burns. This can make ...

3D printing of artificial cartilage Is it possible to grow tissue in the laboratory, for example to replace injured cartilage? At TU Wien (Vienna), an important step has now been taken towards ...

3D printing has reached new frontiers in the medical field, as a research team at TU Wien has achieved a breakthrough by leveraging a precise 3D printing process to produce artificial cartilage. This ...

A special high-resolution 3D printing process is used to create tiny, porous spheres made of biocompatible and degradable plastic, which are then colonized with cells.

A high-resolution 3D printing process has been used to create scaffolds for cartilage growth, giving researchers greater control over the resulting shape.