A novel ceramic-gelatin assembly (CGA) has been designed as an osteochondral scaffold for articular cartilage repair. The CGA scaffold consists of four layers, that is, a porous ceramic layer as osseous component and also as anchor, a dense ceramic layer to prevent blood vessel penetration and also to stand shear stress, a porous ceramic layer for fixation of bone to cartilage, i.e. for joining the ceramic part to the porous gelatin layer, the latter being used as cartilaginous component. The joining was done by the infiltration of gelatin solution into the porous ceramic layer, gelling and crosslinking. This CGA scaffold can offer solutions to the so-far not satisfactorily resolved issues of the osteochondral scaffold, i.e. anchoring, blood vessel penetration, shear stress distribution during articular joint motion. and enough strength to join the cartilaginous component to the osseous component to prevent delamination. This novel scaffold was tested by in vitro cell culture with Wistar rat's joint chondrocytes. DNA assay, GAGs assay, RT-PCR, and histological evaluations with hematoxylin-eosin and Safranin-O staining were carried out to show that cartilage tissue can be developed in four weeks.

• 出版日期2009-1-1
• 单位清华大学