Hydrogel injection molding is a viable alternative to three-dimensional bioprinting, offering efficiency, scalability and reproducibility for even complex 3D cell-laden geometries and high-throughput ...

3D bioprinting combines cells, growth factors, and biomaterials to fabricate biomedical parts. The process requires special “bio-inks,” often made of materials like alginate or gelatin. A key goal is ...

The rapid advancement of 3D bioprinting technology has revolutionized surgery, medicine, and dentistry. It allows for the creation of customized artificial implants and prosthetics tailored to ...

3D printing is the process through which a 3D physical object (such as this gold bracelet) can be printed from a model (such as the gold bracelet model seen on the laptop screen). Bioprinting, also ...

Biomanufacturing of organs/tissues in vitro has been driven by two needs, i.e., organ transplantation and accurate tissue models. Bioprinting, also known as three-dimensional (3D) printing, is a ...

A three-dimensional (3D) bioprinting technology capable of eliminating cancer cells using the function of immune cells has been developed for the first time in the world. Through joint research with ...

At TU Wien, researchers are developing three-dimensional (3D) printing techniques that can be used to create living biological tissue—for example, to study skin diseases.

In the 3D printing world, 2021 is shaping up to be the year of bioprinting, with both 3D Systems (DDD-1.62%) and Desktop Metal (DM) entering the commercial bioprinting market this year. Bioprinting ...