Circulatory shock
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Comparative Study
Prostacyclin and thromboxane A2 in septic shock: species differences.
Prostacyclin and thromboxane A2 have been implicated as mediators of septic shock. Correlations between the human prostanoid response to sepsis and experimental paradigms are poorly understood. The purpose of this study was to compare changes in plasma levels of prostaglandin 6-keto-F1 alpha (PGI) and thromboxane B2 (TxB) during septic shock in Sprague-Dawley rats, domestic pigs, mongrel dogs, and man. ⋯ In man, both PGI and TxB were significantly increased in severe sepsis, compared to normal controls, but only PGI was significantly higher in septic shock versus normotensive sepsis. Patterns of change in TxB/PGI ratios were similar for all species studied. Changes in PGI in the porcine septic experiments most closely paralleled those observed clinically.
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Radiolabeled microspheres were employed to measure the cerebrovascular response to severe anaphylactic-induced hypotension in pentobarbital-anesthetized dogs. A rapid drop in mean arterial pressure (MAP, 140 to below 50 mm Hg) coincided with total and regional cerebral blood flows (CBF) that were not significantly different from prechallenge values. While blood flow to the occipital region (highest measured region of the brain) was significantly greater than that of brainstem regions prior to and during the shock regimen, no major redistributional phenomena occurred to any cerebral region. ⋯ Similar to our previous findings, CBF was maintained to perfusion pressures of 39 +/- 4 mm Hg. The drop in cerebral vascular resistance during the severe hypotensive period was not associated with a significant decline in arterial PO2, or a significant increase in arterial PCO2, A-V PO2, or V-A PCO2. Our results suggest that the fall in cerebral vascular resistance during anaphylactic-induced hypotension would not be associated with a severely altered cerebral metabolism.
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Hypertonic saline has been used in the treatment of hypovolemic or burn shock for its rapid volemic effects. Hypertonic solutions could also improve cardiac performance and protect cellular metabolism in acute circulatory failure. We therefore studied the hemodynamic effects of continuous hypertonic saline infusion in the treatment of severe endotoxic shock in the dog. ⋯ Intravascular pressures were similar in the two groups, but cardiac output, stroke volume, and oxygen consumption were significantly higher in the hypertonic group. These results therefore indicate that hypertonic saline can rapidly restore oxygen transport and tissue oxygen consumption in septic shock. The duration of these hemodynamic effects, however, remains to be determined.
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Previously, we have shown improved survival rate with colloid solutions of 2-4% concentration compared to 10% solutions or a colloid-free electrolyte solution, when given in volumes required to maintain the same intravascular volume expansion. This study examines the effect of increasing infusion volumes of Ringer's lactate (RL) and 3% albumin on survival time and blood volume expansion using the lethal intestinal ischemic shock model in rats. Shock was induced by exteriorization of the small intestine with added occlusion of the superior mesenteric vessels for 75 minutes. ⋯ No control animals survived 24 hours. Survival time was prolonged with both RL and 3% albumin infusions. The effect on survival time with albumin was obtained with approximately 25% of the fluid required for RL.