The self-limiting response to urate crystals allows the exploration of events involved in both the onset and resolution of gout. Using i.v. injected radiolabelled anti-E-selectin monoclonal antibody 1.2b6 together with differentially radiolabelled neutrophils, mononuclear cells and albumin, we have characterized the expression of E-selectin in relation to leucocyte traffic, microvascular permeability and clinical sequelae following intracutaneous injection of monosodium urate crystals. We found that the inflammatory response in this model involved several distinct phases. First, E-selectin expression increased over 2-6 h in the context of increases in neutrophil and mononuclear cell accumulation, and albumin leakage. Secondly, leucocyte accumulation rapidly declined despite persisting E-selectin expression. Thirdly, E-selectin expression peaked at approximately 8 h and then fell despite an increase in clinically detectable erythema and induration. Lastly, these clinical manifestations of inflammation resolved despite the continued presence of urate crystals in the tissues. The further dissection of mechanisms regulating these phases will lead to a better understanding of events in both the pathogenesis and resolution of gout. Of broader significance, this inflammatory model may yield information about the protective events that underly resolution of inflammation, and provide insights into factors which determine chronicity.