Journal of investigative surgery : the official journal of the Academy of Surgical Research
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Knowledge of sepsis is growing rapidly and new pathogenetic concepts and therapeutic strategies evolve. The animal models of sepsis catalyze this development. Any model of this complex disease is inevitably a compromise between clinical realism and experimental simplification. ⋯ As to optimize models for the clinical reality the choice of an appropriate class of models is crucial. Moreover the incorporation of clinical therapy such as volume resuscitation, antibiotic therapy and surgical treatment of the septic focus is indispensable. Finally, the importance of simulation of comorbidities cannot be overemphasized.
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Editorial Biography Historical Article
Piaget and his role in problem based learning.
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The aim of this study was to explore the complex role of endothelins (ETs) in hepatic ischemia-reperfusion injury and to minimize this type of injury by nonselective ET receptor blockade. In an in vivo rat model, hepatic ischemia was induced for 30 min. The rats were divided into three groups: (1) sham operated, (2) untreated ischemic, and (3) group treated with the nonselective ET receptor antagonist bosentan (1 mg/kg body weight iv). ⋯ In conclusion the release of endothelins is combined with microcirculatory disturbances and local hypoxia, thereby causing liver damage. By protecting the liver microcirculation, ET receptor blockade of both receptors at a low dose increased blood and oxygen supply to the liver and reduced hepatocellular injury. These results constitute the bases for further studies and transfer into clinical practice.
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Intermittent measurement of cardiac output is routine in the critically ill surgical patient. A new catheter allows real-time continuous measurement of cardiac output. This study evaluated the impact of body temperature variation on the accuracy of these measurements compared to standard intermittent bolus thermodilution technique. ⋯ Correlation between the two techniques was 0.96, 0.91, and 0.82 for temperatures of < or =36.5 degrees C, 36.6-38.4 degrees C, and > or = 38.5 degrees C, respectively. In conclusion, the COC measurements correlate well with COB in trauma patients with a core temperature < or =38.5 degrees C. The accuracy degraded at higher temperatures, which may be related to the smaller signal-to-noise ratio at elevated body temperatures.