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

Furthermore, conventional 3D bioprinting mainly utilizes simple syringe-type printing devices with a single needle, making it ...

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

Researchers have designed a high-speed 3D bioprinter to accurately print human tissues. Interestingly, this advanced ...

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

Explore the transformative potential of Dynamic Interface Printing (DIP) in biomedical engineering. Learn how this new ...

Bioprinting is a technology used to create three-dimensional structures, such as human tissues or organs, using bio-inks made ...

Apparently, bioprinting applications are very much ... even with a garden-variety 3D printer.

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

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