This study was undertaken to examine and quantitate the chemical injury and repair of the dog nucleus pulposus in collagenase-induced chemonucleolysis. Thirty three adult mongrel dogs were used into which the purified collagenase was injected at a rate of 200 units. The dogs were sacrificed after roentgenography. Disc specimens were stained primarily with safranin-O for microscopic study, and fresh tissues were used for electron microscopic study. For immunohistochemical analysis, paraffin sections were reacted with anti-bovine types I, II and III collagen antibodies. Two weeks after the injection, the height of the injected disc was reduced by about 50% and there was no sign of recovery for 52 weeks. There was a profound loss of safranin-O stainability in the nucleus pulposus, annulus fibrosus and cartilagenous endplate. By 8 weeks, regeneration of the nucleus pulposus began and chondrocytes appeared from the junctional area. The regenerated nucleus pulposus was stained well with safranin-O and consisting largely of type II collagen immunohistochemically. In the regenerated nucleus pulposus, collagen fibers and proteoglycans were reconstructed in a net-work with hyaluronic acids.