The Journal of surgical research
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Hepatic hypoxia during resuscitation and other critically ill conditions is a serious cause of acute hepatic failure. Measurement of the ATP concentration is a sensitive method to evaluate the extent of hypoxic damage in the liver. Hypothermia has been shown to attenuate organ injury in hypoxia. Our aim was to evaluate the effects of moderate hypothermia on the hepatic energy metabolism in rats during gradual hypoxia using (31)P nuclear magnetic resonance (NMR) spectroscopy. ⋯ During gradual hypoxia, beta-ATP decreased, P(i) increased, and pH(i) decreased in the rat liver, depending on the oxygen concentration. These changes were more prominent in the NT group than in the HT group. We conclude that moderate hypothermia effectively protects high energy phosphoenergetic metabolites in rat liver during gradual hypoxia as compared to normothermia.
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Strangulation obstruction of the small bowel is associated with local and systemic circulatory changes, local loss of fluid, and damage of the strangulated bowel segment. We wanted to examine to which extent these changes can be prevented by intravenous fluid administration. ⋯ The administration of large amounts of fluid to animals with strangulation obstruction normalized the arterial pressure and improved the intestinal blood flow thus minimizing damage to the intestinal mucosa.
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Cardiogenic shock (CS) is the leading cause of death for patients hospitalized with acute myocardial infarction (AMI). Despite contemporary management of AMI, the incidence of shock due to left ventricular failure has not declined and its mortality continues to be in excess of 50%. Furthermore, the role and indications of the different means of acute revascularization remain unclear. ⋯ Due to variability in the distribution of collateral flow, there is great variability in the severity of ischemia. Myocytes can exhibit different metabolic responses including hibernation, ischemic preconditioning, stunning, reperfusion injury, and necrosis. Precise knowledge of these biochemical and metabolic changes that take place in the myocardium after arterial occlusion and following reperfusion is paramount to the understanding of the indications for acute revascularization, the implementation of the different management strategies to enhance myocardial preservation and recovery, and the role of circulatory support in these exceedingly sick patients.
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The staging of lung cancer is a continuously progressing field, with advances in technology not only improving prognostic accuracy, but fundamentally changing pre-operative investigation algorithms. Noninvasive staging is currently undergoing revolutionary developments with the advent of Positron Emission Tomography, whereas Video-Assisted Thoracic Surgery has already been established as an essential, minimally invasive diagnostic tool for invasive histological staging. Molecular staging may transform future lung cancer staging, promising extremely accurate substaging, and potentially prompting a revision of our anatomically based conceptualization of lung cancer spread. This review presents an appraisal of current lung cancer staging modalities, and presents an overview of recent developments in molecular staging.
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We hypothesized that the changing environment of academic surgery has resulted in a decrease in surgical research funding and basic surgical research productivity of academic departments of surgery. ⋯ Support for basic surgical research has been static. Despite static grant support, basic research productivity has increased for Departments of Surgery. Basic surgical research remains an integral part of academic surgery department activity.