Cell therapy and tissue engineering for cartilage repair

Abstract

[Abstract] The integrity of the articular cartilage is necessary for the proper functioning of the diarthrodial joint. The self-repair capacity of this tissue is very limited and, currently, there is no effective treatment capable of restoring it. The degradation of the articular cartilage leads to osteoarthritis (OA), a leading cause of pain and disability mainly among older people. Different cell treatments have been developed with the aim of forming a repair tissue with the characteristics of native articular cartilage, including cellular therapy and tissue engineering. Cell therapy-based approaches include bone marrow-stimulating techniques, implants of periosteum and perichondrium, ostechondral grafting and implantation of chondrogenic cells as chondrocytes, mesenchymal stem cells or induced pluripotent stem cells. In tissue engineering-based approaches cell-free scaffolds capable of recruiting endogenous cells or chondrogenic cell-loaded scaffolds may be used. However, despite the numerous treatments available nowadays, no technique has been able to consistently regenerate native articular cartilage in clinical trials. Although many cell therapy and tissue engineering studies have shown promising results and clinical improvement, these treatments generate a fibrocartilaginous tissue different from native articular cartilage. More research is needed to improve cell-based approaches and prove its efficacy.