Circulatory shock最新文献

We hypothesized that treatment of experimental sepsis with bactericidal antibiotics, known to enhance microbial toxin release, would alter tumor necrosis factor-alpha production and the hemodynamic response to the syndrome. In the rat, after cecal ligation and puncture (CLP), elevated serum TNF levels and cardiac output were observed following antibiotic treatment. TNF and cardiac output were elevated to a greater extent in bactericidal-treated than bacteriostatic-treated or antibiotic-untreated rats. Animals treated with bactericidal antibiotics also had significantly greater cardiac outputs than untreated rats. Despite increases in circulating TNF with antibiotic administration, the mortality rate at 96 hr decreased after either bactericidal or bacteriostatic antibiotics. We conclude that elevated TNF after CLP in rats treated with antibiotics is associated with enhanced hemodynamic responses to CLP, but does not increase early mortality. In this model of polymicrobial sepsis, bactericidal and bacteriostatic antibiotics led to different hemodynamic effects without compromising survival.

In a model of intestinal ischemia-reperfusion resulting in hypotension, mucosal lesions in the small intestine and mortality, the effects of a combination of superoxide dismutase (SOD) and catalase (cat) or a PAF receptor antagonist were tested. Intestinal ischemia was induced in rats and continued for 60 min. After this, the intestine was reperfused. A PAF receptor antagonist, BN 52021, was given 50 min before ischemia in one group, and SOD + cat was given 10 min before reperfusion in one group. One group received normal saline and one group were controls. Blood pressure, mucosal lesions, plasma volume, and endotoxin in plasma were determined up to 3 hr after reperfusion. Mortality was determined over 4 days. Endogenous endotoxin was not found in any of the groups, but the first types of SOD and cat used were contaminated with endotoxin, resulting in exogenous endotoxemia in animals which received those substances. Later endotoxin-free enzymes were used. Neither SOD + cat nor PAF antagonist had any effect on the hypotension or mucosal lesions. Plasma volume remained at the level of the control group after administration of either regimen. Mortality decreased in the group that received SOD + cat. The effects of SOD + cat indicate that free radicals were released in this model at reperfusion, and the effects of the PAF receptor antagonist indicate that PAF participates in membrane damage, but is an intermediary mechanism in the shock model used. The clearance of infused endotoxin from plasma was less effective in the shocked animals, possibly due to a shock effect on reticuloendothelial system (RES).(ABSTRACT TRUNCATED AT 250 WORDS)

This paper is divided into a retrospective descriptive section in which we report on three distinctly different and spontaneous responses of the baboon to LD100 Eschericia coli observed over the last 6 years. This section is followed by an experimental section in which we reproduce the immediate and delayed responses based on hypothetical mechanisms. In the descriptive section, we arbitrarily divided all the non-survivor animals on which we had sufficient data into three groups based on duration of survival (i.e., 12 hr or less, immediate, 12 to 30 hr, intermediate, and 30 hr or more, delayed). The natural history and pathophysiology of the 12 hr or less group matched that of capillary leak syndrome with a rapid fall in blood pressure, rise in hematocrit, massive edema, and congestion with leukocyte sequestration in both lung and liver, with only limited adrenal cortical hemorrhage. The 12 to 30 hr group matched the natural history of a consumptive hemorrhagic diatheses with a biophasic blood pressure response, limited change in hematocrit, a severe consumptive coagulopathy, severe adrenal cortical hemorrhage, and a moderate renal cortical tubular necrosis, but limited renal cortical thrombosis. The greater than 30 hr group matched the natural history of a microvascular thrombotic (hemolytic uremic) syndrome with a stable blood pressure, a fall in hematocrit associated with a massive renal cortical thrombosis with a severe medullary, and cortical tubular necrosis. We did not analyze these groups further (i.e., type of intervention etc.) once we found that time of survival correlated with a unique clinical syndrome, because based on these observations, we hypothesized that we could reproduce the immediate capillary leak and pulmonary failure, and the delayed microvascular thrombosis and renal failure syndromes experimentally. We reproduced the immediate (< 12 hr) and delayed (> 30 hr) responses by infusion of either tumor necrosis factor or C4b binding protein with sublethal E. coli. This provides models of the immediate and delayed as well as the intermediate responses to E. coli for study of mechanism and the efficacy of therapeutic interventions.

TNF alpha is an early mediator of endotoxemic shock. Its acute effect on renal hemodynamics is not known. In this study, the early hemodynamic and renal effects of TNF alpha were investigated in a rabbit model of shock, in which the measurement of the aortic blood flow before the bifurcation of the renal arteries allows one to differentiate between prerenal factors and hemodynamic renal response. Six groups of rabbits were studied, receiving either: (1) endotoxin, (2) endotoxin + thromboxane inhibitor Dazmegrel, (3) TNF alpha, (4) TNF alpha + Dazmegrel, (5) TNF alpha+indomethacin, or (6) placebo. Between 60 min and 3 hr after the injection, endotoxin induced a mean fall in arterial pressure of 32% (P < 0.01) and TNF alpha of 16% (P < 0.01). After endotoxin, the aortic blood flow decreased by 27% (P < 0.01) and after TNF alpha by 18% (P < 0.001). Both specific thromboxane inhibition and indomethacin abolished the TNF alpha central hemodynamic effect. The renal blood flow (-53%), the renal fraction of the aortic blood flow (-38%), and the glomerular filtration rate (-47%, P < 0.05) decreased 1 hr after endotoxin injection. In contrast, TNF alpha induced only a slight fall of the renal fraction of the aortic blood flow (-19%) after 2.5 hr. Glomerular filtration was not modified after TNF alpha injection most likely because of a 17% mean increase of filtration fraction in this group (P < 0.001). These data indicate that TNF alpha is implicated in the early hemodynamic changes of endotoxemic shock.(ABSTRACT TRUNCATED AT 250 WORDS)

A nonhypotensive dose of endotoxin (Escherichia coli lipopolysaccharide, 250 micrograms kg-1 h-1) impaired both the pressor responsiveness to noradrenaline and its effects in reducing renal and hindquarter blood flow, measured using ultrasound Doppler flow probes. Platelet activating factor (PAF, 50 ng kg-1 h-1) similarly impaired pressor responsiveness to noradrenaline, although this effect was accompanied by marked hypotension. These actions of PAF were prevented by pretreatment with the PAF antagonists WEB 2086 (20 mg kg-1) or BN 50739 (10 mg kg-1) 15 min before commencing the infusion. However, neither antagonist modified the effect of endotoxin in impairing vascular responsiveness to noradrenaline. Thus, these results do not support a role for PAF in mediating endotoxin-induced vascular hyporeactivity, at least in the early stages of endotoxaemia.

Bacterial translocation in humans has been identified only with small bowel obstruction and in trauma patients. Our aim was to determine whether the occurrence of bacterial translocation correlates with clinical outcome in trauma patients. All patients requiring exploratory celiotomy for abdominal trauma over a 2-month period were considered for the study. Gross fecal contamination of the abdomen was the only exclusion criterion. Five patients with small bowel injuries without obvious contamination were included. Patients received preoperative antibiotics. Once surgical hemostasis and injury repair were complete, two mesenteric lymph nodes were harvested--one for quantitative culture, the other for electron microscopic evaluation. Postoperatively, patients were monitored for infection via temperature, white blood cell (WBC) count, and, when indicated, chest X-ray (CXR) and culture. Statistical analysis utilized ANOVA (P < 0.05 significant) and linear regression. Sixteen patients were included in the study. Fifteen patients sustained penetrating abdominal trauma, one blunt. Six patients presented in Class I hemorrhagic shock, four in Class II, and two in Class III. The remaining four were not in hemorrhagic shock. Thirteen patients demonstrated bacterial translocation: one by culture alone, nine by electron microscopy, and three by both culture and electron microscopy. Statistical analysis of these three groups and patients without evidence of infection failed to reveal significant difference in average age, injury severity, hospital days, or incidence of postoperative infection. Bacterial translocation occurs following abdominal trauma in humans. Electron microscopic evaluation of mesenteric lymph nodes demonstrated that the incidence of translocation is greater than anticipated by culture alone.(ABSTRACT TRUNCATED AT 250 WORDS)

The irreversible loss of adenine nucleotides and the formation of free radicals have both been suggested as causes of irreversibility following prolonged hemorrhagic shock. This study was performed to assess the effect of xanthine oxidase inhibition (allopurinol 50 mg/kg/day), free radical scavenging (superoxide dismutase 15,000 u/kg, catalase 15,000 u/kg, dimethylsulfoxide 20 mg/kg, and alpha tocopherol 100 mg/kg/day) or both, on the 24-hr survival of dogs subjected to irreversible haemorrhagic shock. Twenty anesthetized dogs were bled to a mean arterial pressure of 30 mm Hg for 4 hr. The dogs were allocated to a control, an allopurinol pretreated, a free radical scavenger, or a combined treatment group. Both groups pretreated with allopurinol had significantly improved survival (P < 0.05) over that seen in the control group, but the free radical scavenger treated group was not significantly different from the control group. This study demonstrates the beneficial effect of xanthine oxidase inhibition on survival, and suggests that it may be due to preservation of adenine nucleotides rather than prevention of free radical formation.

Endotoxin results in a granulocyte mediated loss of hypoxic pulmonary vasoconstriction (HPV). Dapsone blocks the granulocyte respiratory burst and might, therefore, preserve HPV following endotoxin. Isolated-perfused canine lobes (n = 6) were pretreated with 18 mg/kg dapsone (dapsone group), and compared to six lobes which did not receive dapsone (control group). Total pulmonary vascular resistance (Rtot) and arterial, middle (Rm), and venous segmental resistances were calculated by a vascular occlusion technique. We then administered endotoxin (2 mg/kg) and repeated measurements at 5, 30, and 90 min. The increase in Rm during 3% O2 compared to 35% O2 ventilation was used to define the presence of HPV. In the control group, following endotoxin, values of Rm did not change (P > 0.05) during 3% O2 ventilation (0.011 +/- 0.006 cm H2O/ml/min) compared with 35% O2 ventilation (0.014 +/- 0.005 cm H2O/ml/min). In the dapsone group, following endotoxin, values of Rm increased (P < 0.05) during 3% O2 ventilation (0.06 +/- 0.026 cm H2O/ml/min) compared with 35% O2 ventilation (0.03 +/- 0.015 cm H2O/ml/min). Changes in 6-keto PGF1 alpha or thromboxane B2 do not explain these observations. We conclude that in this experimental preparation, pretreatment with dapsone prevents the loss of HPV associated with endotoxin.

Intravenous administration of bacterial endotoxin (lipopolysaccharide: LPS) induces shock and disseminated intravascular coagulation in rats. Our report here shows that LPS-administered rats (10 mg/100 g) develop tissue injuries and functional disorders in multiple vital organs. In the present study, we investigated changes in tissue antioxidant enzyme activities, neutrophil sequestration, and lipid peroxides in multiple organs (lung, stomach, small intestine for antioxidant enzyme activities and neutrophil sequestration; lung, stomach, small intestine, liver, abdominal aorta for lipid peroxides) of LPS-treated rats. LPS-treated animals morphologically revealed pulmonary interstitial edema, alveolar hemorrhage, and mucosal hemorrhage in the small intestine 45 min after LPS administration. Blood samples withdrawn from LPS-treated animals exhibited increases in serum amylase, blood urea nitrogen, creatinine, and transaminase levels up to 180 min post-LPS infusion. LPS-treated animals showed a significant increase in tissue myeloperoxidase (MPO) activities of the lung, but not of the small intestine and stomach 45 min after LPS infusion. Thiobarbituric acid reactive substances (TBARS) in the lung, small intestine, stomach, liver, and abdominal aorta significantly increased at 45 min post-LPS-infusion. Tissue superoxide dismutase (SOD) activities of the LPS-treated animals demonstrated a significant decrease in the lung, which suffered from severe insults and neutrophil sequestration; no significant change in the small intestine, which suffered from morphological insults without neutrophil sequestration, and a significant increase in the stomach, which showed no histological impairment, at 180 min post-LPS administration. Glutathione peroxidase (GSH-PX) activities of the lung and small intestine showed no significant change in LPS-treated rats, while those of the stomach revealed a marked increase.(ABSTRACT TRUNCATED AT 250 WORDS)

Unlabelled: The use of small-volume injections of hypertonic saline solutions (HSS) in resuscitation from hemorrhagic shock is accompanied by well-maintained and pronounced increases in coronary blood flow (CBF) and by increases in myocardial contractility. The present study was performed in open-chest, anesthetized dogs to evaluate the contribution of direct coronary vasodilator and positive inotropic effects of HSS to these therapeutic responses. The left anterior descending coronary artery (LAD) was cannulated and perfused at constant pressure (100 mm Hg) with normal arterial blood. CBF in LAD was measured electromagnetically, and used to calculate myocardial oxygen consumption (MVO2) and coronary arterial plasma osmolality. Percent segmental shortening in LAD bed (% SS) was evaluated with ultrasonic crystals. Measurements were obtained during infusion into LAD of 2.5, 5.0, and 7.5% HSS at 2 ml/min. These HSS solutions yielded calculated plasma osmolalities of 329 +/- 3, 361 +/- 8, and 378 +/- 10 mOsm/kg, respectively. The increases in plasma osmolality by 2.5% HSS were in the therapeutic range, whereas those by 5.0 and 7.5% HSS were supertherapeutic. HSS caused initial peak increases in CBF (reflecting decreases in coronary vascular resistance), which waned rapidly to achieve modest steady-state increases within 2-3 min. The magnitude of the peak and steady-state increases in CBF by HSS correlated to osmolality. The 2.5% HSS had no effect on MVO2 and % SS, whereas the 5.0% and 7.5% HSS increased these variables in an osmolality-dependent manner.

Conclusions: (1) intracoronary infusions of HSS caused modest steady-state coronary vasodilation, (2) Supertherapeutic elevations of plasma osmolality by HSS were required for direct positive inotropic effects, and (3) the present findings suggest that the direct cardiac actions of HSS contribute minimally to the increases in coronary blood flow and myocardial contractility that follow the use of these solutions for resuscitation from hemorrhagic shock.