Rabbit articular chondrocytes seeded on collagen-chitosan-GAG scaffold for cartilage tissue engineering in vivo.

In this study, we prepared a tri-copolymer porous matrices by natural polymer, collagen (Col), Chitosan (Chi) and Chondroitin (CS). Rabbit articular chondrocytes were isolated from the shoulder articular joints of a rabbit, seeded in Col-Chi-CS scaffold, and implanted subcutaneously in the dorsum of athymic nude mice to tissue engineer articular cartilage in vivo. In vitro studies show that Chondrocytes adhered to the scaffold, where they proliferated and secreted extracellular matrices with time, filling the space within the scaffold. The results of hematoxylin and eosin staining scanning electron microscopy revealed that most of the chondrocytes maintained their typically rounded morphology. After 28 days of culture within Col-Chi-CS scaffold in vitro, the results of histological staining showed forming of cartilage-specific morphological appearance and structural characteristics such as lacunae. Subcutaneous implantation studies in nude mice demonstrated that a homogeneous cartilaginous tissue, which was similar to those of natural cartilage, formed when chondrocytes were seeded in Col-Chi-CS matrix after implant 12 weeks. The tri-copolymer matrix could therefore have potential applications as a three-dimensional scaffold for cartilage tissue engineering.