Matrix loss and synthesis following a single impact load on articular cartilage in vitro

Articular cartilage biopsies were subjected to a single impact load and the metabolic response of the chondrocytes investigated using radiolabelled precursors for protein ([H-3]leucine) and glycosaminoglycan ([S-35]sulfate). The severity of the impact was controlled by using different masses and drop heights in a purpose built drop tower. Loss of matrix components was studied by prelabelling prior to loading, the possible repair response by pulse labelling at defined intervals after loading. There was an increase in the loss of both labels from the tissue with increasing severity of impact though the patterns of loss were different. Only 25%-40% of the sulfate was lost over a two week period and the loss increased with the severity of impact. This contrasted with 60% of the leucine being lost over the same period independently of loading. In addition to the loss of synthetic activity caused by cell death, there was a suppression of incorporation immediately following loading. This eventually recovered and increased above control values but the recovery time appeared to depend on the severity of the impact. These results provide preliminary evidence for a repair response.