Modulation of microvascular permeability by 21-aminosteroids after burn injuries.

Abstract

Burn injuries initiate lipid peroxidation in capillary endothelial cells and cause alterations in microvascular permeability, with subsequent leakage of fluid and protein from the plasma into the interstitium. We evaluated the effects of two lazaroid compounds (U74389F and U75412E) on alterations in microvascular permeability that resulted from burn injuries. A canine model was used for the evaluation of microvascular permeability at the site of the burn injury with the use of a measure of the reflection coefficient (sigma(d)). Hindpaw lymph flow, lymph and plasma total protein concentrations, and arterial, venous, and capillary pressures were measured before burn injuries and for 6 hours in 6 different groups. Footpaw weight gain was then calculated as the percentage of increase of experimental hindpaw relative to the contralateral paw. The damage was attenuated by 20 mg/kg of lazaroid U75412E given before the injuries, but a lower dose was not effective. This agent was also effective in limiting edema formation, as evidenced by changes in footpaw weight gain. However, the administration of either lazaroid compound produced no significant effect on the burn-induced changes in capillary permeability. We conclude that these lazaroids do not prevent burn-induced changes in permeability at the site of injury when administered after an injury. U75412E administered before the injury was effective in limiting the alterations in microvascular permeability.