UC San Diego leads a $25.8 million ARPA-H funded project to 3D bioprint patient-specific human livers, aiming to eliminate organ shortages.

Picture this: a 3D printer that can build a viable human organ at the push of a button. Sounds futuristic, but Dallas researchers are aiming to make that a reality. UT Southwestern Medical Center ...

Researchers are developing functional, patient-specific livers using 3D bioprinting and stem cell technology to eliminate the ...

Driven by rapid clinical translation, industrial-scale allogeneic production, and sustained public–private investment, the ...

The majority of human illnesses is caused by damage of a single organ like the liver whose failure accounts for 2M deaths worldwide every year. Orthotopic transplants are the only curative therapy ...

Funding supports safety studies, manufacturing and clinical planning needed before applying to test the treatment in patients ...

One of the biggest quests in biology is understanding how every cell in an animal's body carries an identical genome yet still gives rise to a kaleidoscope of different cell types and tissues. A ...

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. Roughly one-quarter of Europe ...

HPMP-stock.Adobe.com. Image created with AI. Within this new ecosystem, FMGI will lease Alquist A1X printers, financed and serviced by Hugg & Hall, to execute large-scale 3D-printed projects ...