American journal of surgery
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Despite spectacular advances in life-support technology, the management of patients with severe sepsis continues to be a significant health care challenge because of the associated major morbidity, high mortality, and health economic implications. Severe sepsis with associated multisystem organ dysfunction (MOD) is the leading cause of death in the intensive care unit. Recent understanding of the pathophysiology now demonstrates that the syndrome of severe sepsis after a major physiologic insult is characterized by the activation of multiple overlapping and interacting cascades leading to systemic inflammation, a procoagulant state, and decreased fibrinolysis, which if unchecked leads to the progressive functional deterioration of multiple interdependent organs. This review will highlight the epidemiology, current understanding of the pathophysiology, management, and prevention of the syndrome of severe sepsis with MOD.
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After resuscitation from hemorrhagic shock, intestinal microvessels constrict leading to impairment of blood flow. This occurs despite restoration and maintenance of central hemodynamics. Our recent studies have demonstrated that topical and continuous exposure of the gut microvasculature to a clinical solution (Delflex; Fresenius Medical Care), as a technique of direct peritoneal resuscitation (DPR), reverses the postresuscitation vasoconstriction and hypoperfusion to a sustained dilation and hyperperfusion. We hypothesize that initiation of DPR simultaneously with resuscitation from hemorrhagic shock enhance organ blood flow to all tissues surrounding the peritoneal cavity as well as distant organs. ⋯ Direct peritoneal resuscitation enhanced blood flow to organs incited in the pathogenesis of multiple organ failure that follows hemorrhagic shock.