A new AM process, Dynamic Interface Printing, from the University of Melbourne promises to revolutionize bioprinting.

We are in the midst of Industry 4.0, where technological convergence, including AI, robotics, and the Internet of Things, has ...

Bioprinting is an additive manufacturing process, wherein successive layers of cell-laden bioinks are used to form biological ...

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

Interestingly, this advanced bioprinter is capable of fabricating a diverse array of tissues, including both soft brain ...

In a collaborative article, Gorka Orive, a researcher in the UPV/EHU's NanoBioCel group, explores the potential and ...

By James WoodfordA rapid form of 3D printing that uses sound and light could one day produce copies of human organs made from ...

Experts from the Fraunhofer Institute for Microengineering and Microsystems IMM have harnessed their know-how in ...

University of Melbourne researchers have developed a revolutionary 3D bioprinting technology that could transform medical ...

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

Biomedical engineers have invented a 3D printing system, or bioprinter, capable of fabricating structures that closely mimic the diverse tissues in the human body, from soft brain tissue to harder ...

D tissue printing is the Holy Grail of restorative and regenerative technologies. This really is fantastic work.