In cartilage repair experiments chondrocytes are transplanted into osteochondral defects. Biological substances are used as cell vehicles and are likely to play an important role in the outcome of these studies. Collagen gel is formed by polymerization of type I collagen and is used in plastic surgery and for three-dimensional culture systems. To test collagen gel as a potential vehicle for transplantation, we evaluated chondrocyte behaviour in vitro in different collagen gels. Collagen type I was extracted and purified from rat tail tendon and fetal calf skin and compared with commercially available collagen type I. After suspension of bovine chondrocytes, five different collagen gels were cultured for 14 days and evaluated by light and electron microscopy. Cells proliferated within all gels and synthesized proteoglycans as assessed by 35S incorporation; 40-90% of cells maintained a chondrocyte-like morphology after 1 week in culture depending on the type of collagen gel. Synthetic and secretory activity was confirmed by electron microscopy. Based on these results, calf skin collagen is recommended for culturing chondrocytes for implantation.