BACKGROUND: Sepsis induced by cecal ligation and puncture (CLP) is accompanied by circulatory failure, multiple organ dysfunction syndrome, metabolic acidosis, and electrolyte imbalance in rats. However, it remains uncertain which parameters can be used to predict the mortality of septic rats. Thus, the aim of this study was to examine which possible biomarkers were associated with mortality in the CLP-induced sepsis model. MATERIALS AND METHODS: After the carotid artery and vein were cannulated, rats were subsequently subjected to CLP or sham operation. The changes of hemodynamics, biochemical variables, blood gas, and electrolytes were monitored during the 18-h observation. RESULTS: The CLP surgery caused circulatory failure, multiple organ dysfunction syndrome, metabolic acidosis, electrolyte imbalance, and death. Compared with survivors, nonsurvivors showed significant difference in (1) blood glucose; (2) lactate dehydrogenase, alanine aminotransferase, aspartate aminotransferase, creatinine, and blood urea nitrogen in serum; and (3) base excess, HCO3(-), PaCO2, potassium, and calcium in whole blood at 9 h after CLP. No significant difference in blood pressure, heart rate, pressor response to noradrenaline, rectal temperature, total protein, albumin, PaO2, and sodium was observed between nonsurvivors and survivors. However, after multifactor dimensionality reduction analysis, the union of HCO3(-) and blood glucose had the biggest testing balanced accuracy. CONCLUSIONS: These results indicate that HCO3(-) plus blood glucose serves as the best biomarker of early death in rats with CLP-induced sepsis. Thus, these parameters could guide experimental procedures for making the right interventions when utilizing CLP as a sepsis model in rats.
BACKGROUND:Sepsis induced by cecal ligation and puncture (CLP) is accompanied by circulatory failure, multiple organ dysfunction syndrome, metabolic acidosis, and electrolyte imbalance in rats. However, it remains uncertain which parameters can be used to predict the mortality of septic rats. Thus, the aim of this study was to examine which possible biomarkers were associated with mortality in the CLP-induced sepsis model. MATERIALS AND METHODS: After the carotid artery and vein were cannulated, rats were subsequently subjected to CLP or sham operation. The changes of hemodynamics, biochemical variables, blood gas, and electrolytes were monitored during the 18-h observation. RESULTS: The CLP surgery caused circulatory failure, multiple organ dysfunction syndrome, metabolic acidosis, electrolyte imbalance, and death. Compared with survivors, nonsurvivors showed significant difference in (1) blood glucose; (2) lactate dehydrogenase, alanine aminotransferase, aspartate aminotransferase, creatinine, and blood ureanitrogen in serum; and (3) base excess, HCO3(-), PaCO2, potassium, and calcium in whole blood at 9 h after CLP. No significant difference in blood pressure, heart rate, pressor response to noradrenaline, rectal temperature, total protein, albumin, PaO2, and sodium was observed between nonsurvivors and survivors. However, after multifactor dimensionality reduction analysis, the union of HCO3(-) and blood glucose had the biggest testing balanced accuracy. CONCLUSIONS: These results indicate that HCO3(-) plus blood glucose serves as the best biomarker of early death in rats with CLP-induced sepsis. Thus, these parameters could guide experimental procedures for making the right interventions when utilizing CLP as a sepsis model in rats.
Authors: Pia Rademann; Adelheid Weidinger; Susanne Drechsler; Andras Meszaros; Johannes Zipperle; Mohammad Jafarmadar; Sergiu Dumitrescu; Ara Hacobian; Luisa Ungelenk; Franziska Röstel; Jozsef Kaszaki; Andrea Szabo; Vladimir P Skulachev; Michael Bauer; Soheyl Bahrami; Sebastian Weis; Andrey V Kozlov; Marcin F Osuchowski Journal: Oxid Med Cell Longev Date: 2017-09-19 Impact factor: 6.543