Stanford scientists discover how blocking 15-PGDH protein regenerates knee cartilage in mice and human tissue, offering hope ...

A treatment that blocks an age-related protein restored cartilage in aging and injured joints by reprogramming existing cells ...

This study is led by Prof. Yingfang Ao, Prof. Jianquan Wang and Dr. Xiaoqing Hu (Beijing Key Laboratory of Sports Injuries, Institute of Sports Medicine of Peking University, Peking University Third ...

A recent article in Engineering describes the development of a protein-based nanocomposite hydrogel designed to deliver two therapeutic agents—dexamethasone (Dex) and kartogenin (KGN)—to support ...

Stanford researchers discovered a drug that can regenerate knee cartilage without surgery. This breakthrough could delay ...

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 ...

Scientists at Stanford Medicine have uncovered a breakthrough that could reshape how doctors treat joint damage caused by aging and injury.

Normal, regulated growth of skeletal bones is a crucial part of the growth of mammals. This is a complex process involving the growth of cartilaginous cells or chondrocytes, their transformation into ...

Northwestern University researchers almost three years ago introduced an injectable new therapy, which harnessed fast-moving “dancing molecules,” to repair tissues and reverse paralysis after severe ...