Scientists have developed a new bioactive material that successfully regenerated high-quality cartilage in the knee joints of a large-animal model. New material comprises peptides, proteins and ...

Northwestern University scientists have developed a cell-free bioactive material comprising a complex network of molecular components that work together as a scaffold to mimic cartilage’s natural ...

Northwestern University scientists have developed a new bioactive material that successfully regenerated high-quality cartilage in the knee joints of a large-animal model. Although it looks like a ...

A microscropy image of the new biomaterial. Nanofibers are pink; hyaluronic acid is shown in purple. (Samuel I. Stupp/Northwestern University) (CN) — Scientists at Northwestern University created a ...

Biologists and materials scientists are experimenting with a new approach to cartilage replacement. They've developed a novel biomaterial that rebuilds damaged cartilage, creating new, high-quality ...

A new therapy that first made headlines in 2021 is now showing potential to heal human cartilage. Developed by scientists at Northwestern University, the technique was initially created to repair ...

A new 3D printed, bioactive glass may support bone growth better than existing materials, according to a recent study in ACS Nano. The paper introduces a novel bioactive glass that outperformed both ...

In adult humans, cartilage does not have an inherent ability to heal. Northwestern Engineering scientists have developed a new bioactive material that successfully regenerated high-quality cartilage ...

The paper introduces a novel bioactive glass that outperformed both standard glass and a widely used commercial bone substitute in preclinical trials. Glass is generally thought of as fragile, but in ...

Northwestern University scientists have developed a new bioactive material that successfully regenerated high-quality cartilage in the knee joints of a large-animal model. Although it looks like a ...