Pathogenesis of early cardiac myocyte damage after severe burns

Background: The importance of early cardiac myocyte damage during postburn trauma has been emphasized in recent years. However, its pathogenesis, prevention, and treatment have not been fully clarified, The aim of this study is to define its pathogenesis. Methods: Rats with 30% third-degree burns were used. Cardiac biochemical markers reflecting cardiac myocyte damage including troponin T, cardiac myosin light chain I, creatinine kinase and its cardiac-specific isoenzyme compound, as web as inflammatory mediators such as tumor necrosis factor, endothelin/nitric oxide ratio, malondialdehyde, and superoxide dismutase, were determined. Results: Cardiac biochemical markers reflecting cardiac myocyte damage, including troponin T, cardiac myosin light chain 1, cardiac-specific isoenzyme compound, were all significantly elevated between 3 hours and 24 hours after burn. Changes in tumor necrosis factor, endothelin/nitric oxide ratio, and malondialdehyde were similar to those of cardiac biochemical markers. In contrast, levels of superoxide dismutase declined markedly after burn. Conclusion: The findings of this study shelved that considerable amounts of myocardial constructive protein degradation and release due to destruction of cardiac myocytes occurred early after severe burns. The inflammatory mediators released after burn injury may be involved in the pathogenesis of myocardial destruction.