The bone gelatin can be further processed, for example, through methacrylation to provide a bone gelatin with unique properties that meets the requirements of the growing 3D bioprinting industry.

Abu Dhabi, Hub71-based startup EpiBone, today successfully closed a convertible note funding round led by Boston-based ...

Hub71 startup, EpiBone, Inc., a leading regenerative medicine startup at the forefront of skeletal repair, announced the ...

Biomedical engineers from the University of Melbourne have invented a 3D printing system, or bioprinter, capable of ...

[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 ...

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

University of Melbourne researchers develop revolutionary high-speed 3D bioprinter that closely mimics the diverse tissues in ...

Volumetric bioprinting is at the forefront of biomedical engineering, where it promises transformative applications in fields such as regenerative medicine, tissue engineering, and high-speed ...