Gut ischemia-reperfusion injury is a serious condition in intensive care patients. Activation of immune cells within the huge endothelial surface area of gut microcirculation may initiate a systemic inflammatory response with secondary injury to distant organs. Translocation of bacteria and toxins through a leaky gut mucosa may amplify or perpetuate systemic inflammation, leading to multiple organ dysfunction syndrome and death in critically ill patients. Gut ischemia promotes regional production of inflammatory mediators, expression of cell adhesion molecules on endothelial and immune cell surfaces and increases the procoagulatory properties of vascular endothelial cells. During reperfusion, gut injury may be amplified by increased production of oxygen radicals and exhaustion of endogenous antioxidant defence mechanisms. Although several therapeutic strategies to interrupt the pathophysiology of ischemia-reperfusion have been shown to be beneficial in animal experiments, none of these interventions has gained clinical relevance. After initial hemodynamic and respiratory stabilisation of critically ill patients, strategies to prevent secondary gut injury by increasing splanchnic oxygen delivery or augment mucosal cell regeneration may be the only therapeutic options for intensive medical specialists at the present time. Early enteral nutrition and treatment with specific vasoactive drugs may reduce morbidity and costs of treatment in certain critically ill patients. However definitive evidence of a reduction in mortality with these therapies has still not be provided.