Hyaline cartilage is a support tissue with a poor capacity to self repair. In the last years, tissue engineering and cell therapy have focused its efforts in the development of scaffolds that may support the differentiation and the implantation of mesnechymal stem cells (MSC) in the site of lesions performed in femoral cartilage. Among synthetic materials used for the construction of these scaffolds, poly(L-lactic acid) (PLLA) is a suitable option, since some studies have offered promising results. The use of PLLA, nevertheles has an important handicap, as cell seeding easily results in a non uniform distribution and a poor density of cells, wich have been proposed as key steps for the differentiation of MSCs to chondrocytes. In our work we have cultured sheep MSCs, and proved its potentiallity by differentiation to chondrocytes in micromass culture. PLLA scaffolds 1 mm thick and 6 mm in diameter were characterized by determining their porosity and their mechanical properties, and subsequently were used to assay the seeding of MSCs. We measured efficiency and retention by quantification of DNA, and density and distribution by light microscopy of paraffin sections. Our results describe a simple technique of cell seeding by aspirating cells with a syringe that achieves a uniform distribution and a high density of cells. Finally 3D seeded MSCs were cultured with condrogenic medium containing TGF-β3 for 21 days and results analyzed by massons trichrome staining in paraffin embedded sections.

Introduction and purpose: We have studied the in-vitro response of older and osteoarthritic chondrocytes when confronted with various factors in order to analyze the possible reversion of their phenotype to that of healthy chondrocytes.

Materials and methods: The study used cartilage from young (3 months’ old) and old (7 years old) lambs with an osteoarthritic pathology. The latter group was obtained by means of a meniscectomy after a two-month evolution. Cells coming from the femur cartilage were isolated by means of collagenase digestion and cultured in a single layer using a DMEM culture medium supplemented with 10% fetal serum, penicilin and streptomycin, hepes and L-cystein (Gibco-BRL®). BrdU incorporation assays were performed by means of an ELISA protocol in order to analyze the proliferation rate. Later, a gene expression analysis was conducted using RT-PCR. The treatment was carried out at a concentration of 50 ng/mL using FGFa, IGF-a, TGF-b (Peprotech Inc) and OP-1 (Stryker) growth factors, and later growth factor combinations FGFa/IGF-1, FGFa/OP-1, FGFa/TGF-b and TGF-b/OP-1.

Results and conclusions: Comparison between the three groups showed that the proliferation rate was lower in older and osteoarthritic cells. These last two groups, however, did not have the same expression pattern as the genes studied. The analysis of the response to growth factors showed that FGFa and IGF-1 were the most efficient ones, and their combination proved to be the most powerful of all.