Sulphinpyrazone reduces endocardial injury and mural thrombosis

Abstract

Study objective – The aim of the study was to investigate the effectiveness of sulphinpyrazone, a drug which stabilises endothelial cell membranes, in reducing endocardial injury and mural thrombosis produced by lactic acid in the left ventricle. Design – The left ventricular endocardium of isolated beating rat hearts, perfused via the aorta with oxygenated Krebs-Henseleit buffer, was exposed for up to 4 h to additional lactic acid (pH 6.4), with and without sulphinpyrazone (100 ng·ml^–1). After flushing with buffer, passage of 10 ml blood, and further flushing, the hearts were fixed by coronary perfusion and the endocardium examined by scanning electron microscopy. Experimental material – Hearts from 48 male albino Wistar rats, weight 270-380 g, were used. Main results – Morphometric analysis of the surface of the papillary muscles showed that lactic acid caused membrane injury in endothelial cells, up to 30% of which exfoliated. However when sulphinpyrazone was present, endothelial cell damage was reduced and there was up to 75% reduction in the area of exposed basal lamina or connective tissue. This was associated with a corresponding reduction in the extent of platelet adhesion (79%) and thrombus formation (94%). Conclusions – The results show that sulphinpyrazone has the potential to reduce the risk of mural thrombosis following endocardial injury.