BACKGROUND: This study investigates the relationship between the burn-induced oxidative stress and the selenium status. METHODS: The rats were fed with a selenium-adequate diet or a selenium-depleted diet for 5 weeks, before a third-degree thermal injury was applied to the animals. One group of selenium-depleted animals received injections of sodium selenite after the injury. The selenium status and the oxidative stress parameters were measured for 5 days. RESULTS: The selenium-deficient diet leads to oxidative stress with a high stimulation of the superoxide dismutase activity. After the burn injury, the oxidative stress appears important because the initial selenium status is already impaired and, in all animals, the selenium levels and the antioxidant seleno-dependent glutathione peroxidase (GPx) activity decrease in the plasma and the tissues. A treatment with daily selenium injections is efficient in normalizing selenium levels and restores the GPx activity, but fails to counteract the initial oxidative damages induced by the selenium-deficient diet. CONCLUSIONS: The selenium status before the burn injury is a modulating factor of the burn-induced oxidative stress. A single selenium supplement is not sufficient to counteract these oxidative damages and henceforth combined antioxidant supplementations should be investigated to improve the early treatment of the burn patients.
BACKGROUND: This study investigates the relationship between the burn-induced oxidative stress and the selenium status. METHODS: The rats were fed with a selenium-adequate diet or a selenium-depleted diet for 5 weeks, before a third-degree thermal injury was applied to the animals. One group of selenium-depleted animals received injections of sodium selenite after the injury. The selenium status and the oxidative stress parameters were measured for 5 days. RESULTS: The selenium-deficient diet leads to oxidative stress with a high stimulation of the superoxide dismutase activity. After the burn injury, the oxidative stress appears important because the initial selenium status is already impaired and, in all animals, the selenium levels and the antioxidant seleno-dependent glutathione peroxidase (GPx) activity decrease in the plasma and the tissues. A treatment with daily selenium injections is efficient in normalizing selenium levels and restores the GPx activity, but fails to counteract the initial oxidative damages induced by the selenium-deficient diet. CONCLUSIONS: The selenium status before the burn injury is a modulating factor of the burn-induced oxidative stress. A single selenium supplement is not sufficient to counteract these oxidative damages and henceforth combined antioxidant supplementations should be investigated to improve the early treatment of the burn patients.
Authors: Anu Shanu; Ludwig Groebler; Hyun Bo Kim; Sarah Wood; Claire M Weekley; Jade B Aitken; Hugh H Harris; Paul K Witting Journal: Antioxid Redox Signal Date: 2012-10-16 Impact factor: 8.401
Authors: Mette M Berger; Philippe Eggimann; Daren K Heyland; René L Chioléro; Jean-Pierre Revelly; Andrew Day; Wassim Raffoul; Alan Shenkin Journal: Crit Care Date: 2006 Impact factor: 9.097
Authors: Christian Stoppe; Bernard McDonald; Steffen Rex; William Manzanares; Richard Whitlock; Stephen Fremes; Robert Fowler; Yoan Lamarche; Patrick Meybohm; Christoph Haberthür; Rolf Rossaint; Andreas Goetzenich; Gunnar Elke; Andrew Day; Daren K Heyland Journal: Trials Date: 2014-08-28 Impact factor: 2.279