View clinical trials related to Endotoxemia.
Filter by:The objective of the present protocol is to study whether a low level of oxygen in the blood will affect the immune response to as well as cerebral blood flow and metabolism during an infection and, conversely, whether the acute systemic and cerebral physiologic response to hypoxia is modified by an ongoing inflammatory response.
The purpose of this study is to determine the effects of HMG-CoA reductase inhibitor pretreatment on inflammation and coagulation activation in human endotoxemia.
The purpose of this study is to investigate putative ethnic differences in the proinflammatory response in human endotoxemia.
A number of diseases lead to a so called systemic inflammatory response syndrome (SIRS). This excessive response is self-destructive and leads to major complications of the initial disease: dysfunction of the microcirculation, systemic vasodilation, and increased capillary leakage and oedema. Animal studies have shown that pre-treatment with endotoxin (lipopolysaccharide or LPS) suppress the excessive immune response and when rechallenged, the animal survive a normally lethal dose of endotoxin. Besides a diminished cytokine response, an increased production of leucocytes in the bone marrow and an increased phagocytosis after pre-treatment with endotoxin is seen. The combination of these factors: diminished systemic inflammatory response and increased cellular immunity makes that endotoxin tolerance is a useful tool for preventing the complications after an excessive inflammatory response. Further, the presence of cross-tolerance has also been shown: Endotoxin tolerant mice survive more after induction of a normally lethal fungal infection. Endotoxin tolerance is also protective for ischemia/reperfusion injury in kidneys, heart and liver. Little data is known about endotoxin tolerance in human. The purpose of this study is to induce a state of tolerance through 2 different administration schedules and monitor the effect of tolerance on pro- and anti-inflammatory cytokines, other inflammatory parameters and different proteins involved in the signalling pathway. The effects of tolerance on vascular reactivity will be determined. Finally, the effect of tolerance on ischemia-reperfusion injury will be investigated.
The purpuse of this study is to examine the acute phase respons when different doses of E. Coli Endotoxin is injected in healty volunters.
Background: Activation of NO-synthase and vascular potassium (K) channels may play a role in the sepsis-induced attenuated sensitivity to norepinephrine. We examined whether various K channel blockers and NO-synthase inhibition could restore norepinephrine sensitivity during experimental human endotoxemia.
Sepsis or endotoxemia is manifested by hypotension, resistance to vasopressors, myocardial depression,and altered organ blood flow distribution. The mechanisms underlying the cardiovascular dysfunction during sepsis are complex; however, they are partially mediated by an uncontrolled production of NO by inducible NO synthase (iNOS).Control subjects received 2 ng/kg E. coli endotoxin, whereas the active intervention group received endotoxin in the presence of selective iNOS-inhibitor aminoguanidine. Hemodynamics, vascular responses to norepinephrine, acetylcholine and sodium nitroprusside, as well as circulating cytokines and other mediators of inflammation were measured. We tested the hypothesis that inhibition of NO-synthesis prevented the LPS-mediated insensitivity to noradrenalin and endothelial-dependent vasorelaxation. Furthermore, we tested whether NO participates in occurrence of the endotoxin tolerance in humans by using the iNOS inhibitor aminoguanidine on healthy volunteers with endotoxemia. At 0; 2 and 4 hours after the LPS challenge whole blood was stimulated with five TLR agonists in vitro and pro- and anti-inflammatory cytokines were measured.