The Journal of surgical research
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The pathophysiology of skeletal muscle injury induced by compression beneath pneumatic tourniquets is poorly understood. Tourniquet hemostasis was induced in rabbit hindlimbs for 2 hr with a cuff inflation pressure of either 125 mm Hg (n = 5) or 350 mm Hg (n = 5). Skeletal muscle biopsies, taken 2 days later from tissue beneath and distal to the tourniquet, were frozen and analyzed using enzyme- and immunohistochemical techniques. ⋯ Extremely large and rounded fibers (histochemically identified as Type IIB fibers) were observed in compressed thigh muscles, indicating differential fiber sensitivity to tourniquet compression and ischemia. The present study demonstrated significant skeletal muscle necrosis after a 2 hr tourniquet applied at a clinically relevant cuff inflation pressure. Recent studies of systemic changes associated with limb "ischemia" should be reassessed in consideration of the confounding effects of tissue compression induced beneath pneumatic tourniquets.
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Burn injury induces immune suppression and increases susceptibility to infection. Hypoalbuminemia is an early and consistent finding following thermal injury and is independently associated with gastrointestinal dysfunction and increased rates of infectious morbidity. This study assessed the effects of albumin resuscitation on burn-induced immunosuppression, bacterial translocation, and absorption of gut endotoxin. ⋯ Uptake of radiolabeled endotoxin was maximal in animals resuscitated with albumin. Bacterial translocation is believed to be responsible for a significant number of late nosocomial infections following trauma. These data suggest that the adequacy of early resuscitation rather than the type of resuscitative solution is the more important factor in minimizing translocation.
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Oxygen-derived radicals are cytotoxic, highly reactive molecules that contribute to cellular death and injury in hemorrhagic shock. Iron released into the plasma in hemorrhagic shock may contribute to cellular damage by catalyzing lipid peroxidation of cell membranes. Deferoxamine (DFO) chelation of transitional metal ions prevents formation of these radicals and may diminish reperfusion injury. ⋯ There was no significant differences between groups in MAP, HR, CVP, and T pre- and post-resuscitation. No LR lived to sacrifice at 24 hr. Thirty-three percent of LR + DFO and PS + DFO animals died within minutes of receiving the free DFO containing resuscitative fluid, presumably from acute DFO toxicity.(ABSTRACT TRUNCATED AT 250 WORDS)
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In pentobarbital-anesthetized dogs, oxygen delivery (DO2) was measured by thermodilution cardiac output and cooximeter determined oxygen content, while oxygen consumption (VO2) was measured independently by spirometry. Oxygen delivery was decreased by isovolemic dilutional anemia, breathing hypoxic gas mixtures, or cardiac tamponade to reduce cardiac output. Baseline VO2 (cc/kg/min) for the three groups was 5.9 +/- 0.7 (anemia), 5.4 +/- 0.4 (hypoxia), and 5.6 +/- 0.1 (low C. ⋯ A critical level of oxygen delivery (DO2crit) was found at 9-10 cc/kg/min (anemia), 10-11 cc/kg/min (hypoxia), and 9-10 cc/kg/min (low C. O.) (NS.). Below this level, VO2 fell (became supply dependent) and lactic acidosis occurred, regardless of the mechanism of impaired oxygen delivery.
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Hemorrhagic shock results in marked changes in splanchnic arterial blood flow. We studied the effects of intraaortic balloon pump assist (IABP) upon splanchnic blood flow during sustained hemorrhagic shock and following volume resuscitation. Hemorrhagic shock was induced (mean blood pressure = 30 mm Hg) for 120 min in 20 dogs. ⋯ Interestingly, the IABP group was found to have a return to preshock splanchnic viscera perfusion without the hyperemic reperfusion phenomenon seen in control animals resuscitated with shed blood and Ringers lactate alone. IABP assist of hemorrhagic shock appears to improve vasomotor control of splanchnic blood flow in this experimental preparation of shock. This may result in less reperfusion injury to the splanchnic viscera during the resuscitation of severe hemorrhagic shock.