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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Systemic organ blood flow was longitudinally determined with fluorescent microspheres after severe thermal injury in unanesthetized sheep. After chronic instrumentation, 20 sheep were subjected to combined injury with 40% body surface area third-degree burn and 48 breaths of cotton smoke insufflation. During the next 72 h of the experimental period, all animals were resuscitated with Ringer's lactate following the Parkland formula. ⋯ Among multiple organs, the splanchnic organs exhibited more dominant and sustained decreases in regional blood flow, whereas heart and kidney blood flow were maintained at more than 90% of baseline level even in the initial hypovolemic phase. In the postresuscitation period, no organ except the heart showed increased regional blood flow, despite a more than 20% increase in cardiac output. Ibuprofen had effects on early recovery from the initial shock period, and it improved intestinal organ blood flow, suggesting a potential benefit of this drug for severe thermal injury.
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We sought to understand the mechanism of metabolic acidosis that results in acute resuscitated endotoxic shock. In six pentobarbital-anesthetized dogs, shock was induced by Escherichia coli endotoxin infusion (1 mg/kg) and was treated with saline infusion to maintain mean arterial pressure > 80 mmHg. Blood gases and strong ions were measured during control conditions and at 15, 45, 90, and 180 min after endotoxin infusion. ⋯ Although serum Na+ did not change, serum Cl-increased (127.7+/-5.1 mmol/L vs. 137.0+/-6.1 mmol/L; p=.016). We conclude that saline resuscitation alone accounts for more than one-third of the acidosis seen in this canine model of acute endotoxemia, whereas lactate accounts for less than 10%. A large amount of the acid load can be attributed to differential Na+ and Cl- shifts from extravascular to vascular spaces.
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Although cardiac function is depressed during endotoxic shock, it remains controversial whether the ventricular contractility and structure are altered during sepsis. To resolve this issue, rats were subjected to polymicrobial sepsis by cecal ligation and puncture (CLP). At 2, 5, and 10 h after CLP (i.e., the early, hyperdynamic stage of sepsis) or 20 h after CLP (the late, hypodynamic stage of sepsis, based on the depressed tissue perfusion), in vivo left ventricular contractility parameters such as maximal rate of the left ventricular pressure increase (+dP/dtmax) and decrease (-dP/dtmax), maximal rate of "pressure-normalized" change in ventricular pressure (dP/dtmax/P), and ventricular peak systemic pressure were determined using a Digi-Med Heart Performance Analyzer. ⋯ Although focal and moderate hypertrophy as well as expanded intermyocyte junctions could be observed occasionally, myocardial cells did not appear to be compromised at 20 h after CLP. Thus, the transition from the hyperdynamic to hypodynamic circulation during sepsis does not appear to be due to any depression in myocardial function because cardiac contractility and structure are not compromised even during the late, hypodynamic stage of sepsis. However, further investigation is required to determine whether cardiac function is depressed at the terminal stage of polymicrobial sepsis.
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The aim of the present study was to investigate the role of poly(ADP-ribose) synthetase in a nonseptic shock model, wherein oxyradicals, nitric oxide, and peroxynitrite are known to play a crucial role in the inflammatory process. DNA single-strand breakage and activation of the nuclear enzyme poly(ADP-ribose) synthetase (PARS) triggers an energy-consuming, inefficient repair cycle, which contributes to peroxynitrite-induced cellular injury. Here we investigated whether peroxynitrite production and PARS activation are involved in cytotoxicity in macrophages collected from rats subjected to zymosan-induced shock. ⋯ In vivo treatment with 3-aminobenzamide (10 mg/kg intraperitoneally, 1 and 6 h after zymosan injection) or nicotinamide (50 mg/kg intraperitoneally, 1 and 6 h after zymosan injection) significantly inhibited the decrease in mitochondrial respiration and the activation of PARS, and partially restored the cellular level of NAD+. In a separate group of experiments, in vivo pretreatment with NG-nitro-L-arginine methyl ester, a nonselective inhibitor of nitric oxide synthesis (10 mg/kg intraperitoneally, 15 min before zymosan administration), reduced peroxynitrite formation and prevented the appearance of DNA damage, the decrease in mitochondrial respiration, and the loss of cellular levels of NAD+. Our study suggests that formation of peroxynitrite and subsequent activation of PARS may alter macrophage function in inflammatory processes and inhibition of nitric oxide, and that PARS may be a novel pharmacological approach to prevent cell injury in inflammation.