BACKGROUND: Hemorrhagic shock is the important factor for causing death of trauma and war injuries. However, pathophysiological characteristics and underlying mechanism in hemorrhagic shock with hot environment remain unclear. METHODS: Hemorrhagic shock in hot environment rat model was used to explore the changes of mitochondrial and vital organ functions, the variation of the internal environment, stress factors, and inflammatory factors; meanwhile, the suitable treatment was further studied. RESULTS: Above 36°C hot environment induced the increase of core temperature of rats, and the core temperature was not increased in 34°C hot environment, but the 34°C hot environment aggravated significantly hemorrhagic shock induced mortality. Further study showed that the mitochondrial functions of heart, liver, and kidney were more damaged in hemorrhagic shock rats with 34°C hot environment as compared with room environment. Moreover, the results showed that in hemorrhagic shock rats with hot environment, the blood concentration of Na+, K+, and plasma osmotic pressure, the expression of inflammatory factors tumor necrosis factor-α and interleukin-6 in the serum, as well as the stress factors Adrenocorticotropic Hormone and Glucocorticoid were all notably enhanced; and acidosis was more serous; oxygen supply and oxygen consumption were remarkably decreased. In addition, the present study demonstrated that mild hypothermia (10°C) fluid resuscitation could significantly improve the survival rate in hemorrhagic shock rats with hot environment as compared with normal temperature fluid resuscitation. CONCLUSIONS: Hot environment accelerated the death of hemorrhagic shock rats, which was related to the disorder of internal environment, the increase of inflammatory and stress factors. Furthermore, moderate hypothermic (10°C) fluid resuscitation was suitable for the treatment of hemorrhagic shock in hot environment.
BACKGROUND: Hemorrhagic shock is the important factor for causing death of trauma and war injuries. However, pathophysiological characteristics and underlying mechanism in hemorrhagic shock with hot environment remain unclear. METHODS: Hemorrhagic shock in hot environment rat model was used to explore the changes of mitochondrial and vital organ functions, the variation of the internal environment, stress factors, and inflammatory factors; meanwhile, the suitable treatment was further studied. RESULTS: Above 36°C hot environment induced the increase of core temperature of rats, and the core temperature was not increased in 34°C hot environment, but the 34°C hot environment aggravated significantly hemorrhagic shock induced mortality. Further study showed that the mitochondrial functions of heart, liver, and kidney were more damaged in hemorrhagic shock rats with 34°C hot environment as compared with room environment. Moreover, the results showed that in hemorrhagic shock rats with hot environment, the blood concentration of Na+, K+, and plasma osmotic pressure, the expression of inflammatory factors tumor necrosis factor-α and interleukin-6 in the serum, as well as the stress factors Adrenocorticotropic Hormone and Glucocorticoid were all notably enhanced; and acidosis was more serous; oxygen supply and oxygen consumption were remarkably decreased. In addition, the present study demonstrated that mild hypothermia (10°C) fluid resuscitation could significantly improve the survival rate in hemorrhagic shock rats with hot environment as compared with normal temperature fluid resuscitation. CONCLUSIONS: Hot environment accelerated the death of hemorrhagic shock rats, which was related to the disorder of internal environment, the increase of inflammatory and stress factors. Furthermore, moderate hypothermic (10°C) fluid resuscitation was suitable for the treatment of hemorrhagic shock in hot environment.