For decades, doctors believed cartilage loss was irreversible. A new injectable material developed at Northwestern proves otherwise.

New research suggests injured joints may not be as permanent as once believed, opening fresh strategies to fight osteoarthritis.

Researchers in Sweden have engineered a cell-free cartilage scaffold that can guide the body to rebuild damaged bone. By removing the cells but preserving the structure and natural growth signals, the ...

HERZLIYA, IL / ACCESS Newswire / January 20, 2026 / Regentis Biomaterials Ltd., (“Regentis” or the “Company”) (NYSE American:RGNT), a regenerative medicine company focused on innovative tissue repair ...

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 ...

Repairing injured knees and protecting against arthritis could be one step closer after scientists discovered how to block a key protein linked to ageing. Arthritis is a common condition that causes ...

A few years ago, researchers developed a novel treatment that seemed to repair tissue and spinal cord injuries. These so-called dancing molecules have now been applied to human cartilage cells, and ...

Northwestern University researchers have found the second use for an injectable therapy using fast-moving "dancing molecules" to regenerate tissue rapidly, leading the biochemists group to hope ...

Even though the recently launched EU project ENCANTO (“magic” in Spanish) has nothing to do with the Disney movie of the same name, the study topic might sound like magic to the layman. "We take a ...

The self-repair of injured cartilage is difficult for several reasons, foremost of which is the lack of blood supply to the tissue. Therapeutic efforts aimed at cartilage repair are often not optimal.