Background: Traumatic shock activates the hypothalamic-pituitary-adrenal axis (HPA) to mediate a cascade of defensive mechanisms that often include overwhelming inflammatory response and immunosuppression, which may lead to multiple organ failure. Androstenetriol (5 androstene, 3beta, 7beta, 17beta triol-AET) is a metabolite of dehydroepiandrosterone that markedly up regulates host immune response, prevents immune suppression, modulates inflammation and improves survival after lethal infections by pathogens and lethal radiation.
Hypothesis: AET-induced immune modulation will improve survival in a conscious rodent model of traumatic shock.
Methods: A relevant traumatic shock rodent model that applies to both combat and civilian sectors was used. After creation of a midline laparotomy (soft tissue trauma), animals were hemorrhaged to a mean arterial pressure of 35-40 mm Hg. Resuscitation was initiated sixty minutes later with crystalloid fluid and packed red blood cells and animals were observed for two days. In a randomized and blinded fashion, AET or vehicle was administered subcutaneously at the beginning of resuscitation.
Results: In the vehicle group 5 out of 16 animals survived, (31%). In contrast, 9 out of 13 animals who received AET survived (69%), (Fisher Exact Test p < 0.05). Survival in the AET treatment group was associated with reduced levels of IL-6, IL-10, and IL-18, and enhanced IFN-gamma and IL-2 levels.
Conclusion: : The results indicate that AET provides a significant protective effect and improves survival in a clinically relevant model of traumatic hemorrhagic shock. AET protective effects are associated with an elevation of Th1 and reduction of Th2 cytokines.