Tissue engineering stratified scaffolds for articular cartilage and subchondral bone defects repair.

Due to their good biocompatibility and mechanical integrity, tissue engineering scaffolds have become a principal method of repair and regeneration of osteochondral defects. To improve their intrinsic properties, control their degenerative times, and enhance their cell adhesion and differentiation, numerous scaffold architectures and formation methods have been developed and tested, but the ideal scaffold design is still controversial. Moreover, scaffold fixation has a significant influence on repair and regeneration after implantation. The authors analyzed relative studies to address the latest scaffold designs, including biphasic scaffold, multilayered scaffold, and continuous nonstratified scaffold, and this article compares their advantages and disadvantages. In addition, the authors introduce a novel modified method for scaffold fixation known as magnetic fixation. Both stratified and nonstratified scaffolds can repair osteochondral defects, but continuous nonstratified scaffolds are more biomimetic compared with the native osteochondral structures, and they lead to a better regeneration of hyaline-like cartilage and structured bone tissue. Therefore, the authors suggest continuous nonstratified scaffolds are an effective option for treating osteochondral defects.