In a breakthrough for regenerative medicine, a new study from IMDEA Materials Institute researchers has demonstrated the ...

Oak Ridge researchers tested 3D-printed steel capsules in a high-flux reactor, remove them fully intact after a month.

Human body reconstruction leveraging image information has become a critical task in the signal processing community. Due to the scarcity of high-quality 3D labels, existing methods often neglect the ...

The breakthrough involved printing human islets – the insulin-producing clusters of cells in the pancreas – using a customised bioink made from alginate and decellularised human pancreatic tissue.

A team of international scientists has made a major leap forward in diabetes research by successfully 3D printing functional human islets using a novel bioink. Presented at the ESOT Congress 2025, the ...

The breakthrough involved printing human islets – the insulin-producing clusters of cells in the pancreas – using a customised bioink made from alginate and decellularised human pancreatic tissue.

Developing a functional vascular network within thick hydrogel scaffolds is crucial for efficiently exchanging oxygen and nutrients, removing waste materials, and overall performance of engineered ...

The breakthrough involved printing human islets – the insulin-producing clusters of cells in the pancreas – using a customised bioink made from alginate and decellularised human ...

A group of North Texas doctors and scientists printed part of a human femur—the longest and strongest bone in the body—that mimics the strength, flexibility and overall mechanics of a real ...

Scientists 3D-print human femur with real bone strength, offering low-cost solutions for surgery, research, and future bone regeneration.

3D printing of stem cells provides a tremendous opportunity to tissue engineering in regenerative medicine. However, developing new bioactive materials to rationally augment stem cell viability is ...