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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Comparative Study Clinical Trial
Volumetric assessment of preload in trauma patients: addressing the problem of mathematical coupling.
The availability of the volumetric thermodilution pulmonary artery catheter allows preload assessment based on ventricular volume rather than pressure. This technique has been shown clinically to be a better measure of preload than the pulmonary artery occlusion pressure (PAOP). Critics of the technique argue that the use of thermodilution to measure cardiac output (CO) accounts for the better correlation between right ventricular end-diastolic volume (RVEDV) and CO than PAOP and CO, since stroke volume derived from the CO is a common term to both RVEDV and CO. ⋯ RVEDV was significantly better than PAOP at predicting both COTH (p < .001) and COFICK (p = .04). Multivariate regression analysis confirmed that RVEDV was the only estimate of preload which was significantly related to CO. We conclude that mathematical coupling does not have a significant clinical effect on the relationship between RVEDV and CO.
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Comparative Study
Hypertonic saline/dextran treatment for severe pressure-driven hemorrhage in dehydrated conscious swine.
Although dehydration impairs the response to a fixed volume hemorrhage, both 7.5% hypertonic saline/6% dextran 70 (HSD: 4 mL/kg) and standard Ringer's lactate (33 mL/kg) are effective resuscitation fluids. However, the efficacy of resuscitation during continuing hemorrhage remains in question. Using a conscious swine model of continuous pressure-driven hemorrhage, we evaluated the effects of dehydration and HSD resuscitation on survival time, hemorrhage volume, regional blood flows, and central hemodynamics. ⋯ Compared with the EC group, DC had a greater increase in heart rate and arterial base deficit in response to the pressure-driven hemorrhage and a reduced pH and survival time (159 vs. 107 min). In contrast to the DC group, D + HSD had increased mean arterial pressure, cardiac output, oxygen delivery, and regional blood flows to the gut (superior mesenteric artery), kidneys, liver (hepatic artery), and adrenals at 5 min after HSD resuscitation. The HSD did not increase blood loss but tended to prolong survival (+26 min; p = .1079). thus, dehydration compromises survival time (-33%) and the hemodynamic and metabolic responses to pressure-driven hemorrhage, while treatment with HSD improves the hemodynamic responses.
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To test the hypothesis that brain injury impairs control of vascular tone during compensation from hemorrhagic shock, Sprague-Dawley rats underwent fluid-percussion brain injury (or sham injury control) followed by a stepwise hemorrhage period to 1/2 baseline mean arterial pressure (1/2 MAP), a shock period holding at 1/2 MAP for 30 min, and a resuscitation period. Aortic blood flow (ABF) was measured and vascular conductance (ABF/MAP) was calculated. No differences occurred between groups during the stepwise hemorrhage period. ⋯ In contrast, brain-injured animals increased conductance from .21 +/- .07 to .24 +/- .06 (p < .05) during the shock period and required repeated fluid replacements (3.0 +/- 1.3 cc lactated Ringer's (LR), p < .05) to maintain 1/2 MAP. Following resuscitation, conductance appropriately increased to .31 +/- .05 in controls but did not change (.25 +/- .04, p < .05) in brain-injured animals. We conclude that brain injury adversely affects control of vascular tone during shock and resuscitation in this model.
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Imidazole compounds have been shown to be beneficial in systemic sepsis and inflammation. The purpose of this study was to delineate the effects of fluconazole on systemic hemodynamics and on microanatomy of the heart, lung, liver, and kidney parenchyma of swine during graded bacteremia. Eighteen adult swine were studied in three groups: 1), anesthesia control; 2), septic control (Aeromonas hydrophila, 10(9)/mL, infused i.v. for 4 h); 3) fluconazole (fluconazole, 30 mg/kg i.v., followed by A. hydrophila infusion). ⋯ Tissue oxygen metabolism might be down-regulated by fluconazole. However, preinfusion of fluconazole appears to normalize the sepsis-induced increase in pulmonary alveolar wall thickness. The net significance of these changes on clinical outcome is not clear from these data.