Shock : molecular, cellular, and systemic pathobiological aspects and therapeutic approaches : the official journal the Shock Society, the European Shock Society, the Brazilian Shock Society, the International Federation of Shock Societies
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The systemic inflammatory response syndrome results from an uncontrolled, overexpression of the normal host inflammatory response, leading to destruction of host tissue and subsequent organ failure. Oxidant stress has been implicated in this process both as a mechanism for direct cellular injury, as well as activation of intracellular signaling cascades within inflammatory cells resulting in progression of the inflammatory response. Vitamin E is an inexpensive, nontoxic, chain-breaking antioxidant that has therapeutic potential in regulating this process. This review seeks to evaluate the current literature regarding the use of Vitamin E in controlling the excessive inflammation seen in systemic inflammatory response syndrome and argues for further study of its therapeutic potential for these critically ill patients.
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Therapeutic goals for hemorrhagic shock resuscitation are the increase of cardiac output and oxygen delivery. The possibility exists that because of microcirculatory effects, different volume expanders result in different tissue oxygen delivery and oxygen use. In a rabbit model of resuscitation from hemorrhagic shock (50% blood loss), we compared the effects of an hemoglobin-based O2-carrying solution (HbOC) with those elicited by albumin, hydroxyethyl starch (HES), or saline on systemic hemodynamics, skeletal muscle O2 pressure (PtiO2), and interstitial concentration of lactate (LACi) through the combined implantation of a microdialysis probe and a sensitive O2 electrode into the hind limb. ⋯ Tissue oxygen use as estimated by LACi increased transiently at the beginning of volume expansion with similar maximum values. Animals resuscitated with saline had significantly higher LACi concentrations after the onset of volume expansion as compared with HbOC but not with colloids. Our results demonstrate that there are measurable differences in MAP and BF upon resuscitation with the four different solutions and there is a slower increase in tissue PtiO2 with saline than with colloids associated with significantly increased LACi consistent with delayed reoxygenation upon resuscitation with saline.
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The objective of this study was to determine whether the serum of patients with sepsis could alter the capability of healthy human peripheral blood mononuclear cells (PBMC) to synthesize cAMP in response to beta-adrenergic stimulation and to evaluate the involvement of the inhibitory pathway (Gi) of adenylyl cyclase in the sepsis-induced alteration of beta-adrenergic signaling. First, PBMC from a healthy donor were incubated for 24 h in serum-containing medium according to three culture conditions: serum alone, serum with pertussis toxin, and serum with propranolol. Second, PBMC were stimulated with 10(-5) M isoproterenol or 10(-6) M forskolin, and measurement of cyclic adenosine monophosphate (cAMP) intracellular accumulation was performed. ⋯ The serum of patients with sepsis contained soluble depressant substances that inhibited adenylyl cyclase activation by beta-adrenergic agonists. Septic shock serum exhibited the most potent inhibitory effect. Hyperactivation of the Gi pathway of adenylyl cyclase was mainly responsible for the altered transmembrane beta-adrenergic signaling.
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It has been demonstrated that lipopolysaccharide (LPS)-induced cytokine response in patients with sepsis differ from the normal host, yet this has not been controlled for the presence of underlying disease. We studied the ability of LPS and killed gram-negative bacteria (GNB) to induce tumor necrosis factor (TNF)-alpha and interleukin (IL) 10, and of phytohemagglutinin (PHA) to induce interferon (IFN)-gamma, in whole blood from patients with sepsis (SP, n = 20), patients with matched underlying disease and without sepsis (control patients, n = 20), and healthy volunteers (HV, n = 20). LPS-induced TNF-alpha production was lower in SP (median = 638 pg/mL) compared with control patients (4060 pg/mL; P= 0.003), and control patients production was lower compared with HV (5329 pg/mL; P < 0.001). ⋯ IL-10 production was not different among the three groups. Down-regulation of TNF-alpha production in patients with sepsis, although not restricted to them, was more pronounced with LPS than with GNB. Although the presence of underlying disease may be involved in the regulatory mechanisms of host response, the use of controls with matched underlying diseases provides strong evidence for the septic condition in the down-regulation of inflammatory response in patients with sepsis.