The funding, part of a new ARPA-H bioprinting initiative, aims to create transplant-ready organs—potentially within ...

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

A team of researchers led by bioengineer Shaochen Chen will use 3D printing techniques to shape stem cells produced by local firm Allele Biotechnology ...

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

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 ...

The project, titled Liver Immunocompetent Volumetric Engineering (LIVE), aims to address the shortage of donor organs by ...

This review innovatively proposes the use of electrospinning to fabricate electroactive fibrous scaffolds, which mimic the structure of the extracellular matrix while providing electrical activity, ...

Scientists have crossed a startling new frontier in bioengineering: they can now fabricate intricate three-dimensional ...

Unlike traditional transplant approaches, the goal is not to permanently replace a failing liver, but to create a temporary, ...

Custom polymer structures can now be 3D printed inside living cells using laser-based fabrication, opening paths to intracellular sensors, cell tracking tags, and embedded microlasers.