Shock : molecular, cellular, and systemic pathobiological aspects and therapeutic approaches : the official journal the Shock Society, the European Shock Society, the Brazilian Shock Society, the International Federation of Shock Societies
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This experimental animal study investigates the effects of combined recombinant human activated protein C (rhAPC) and ceftazidime on cardiopulmonary function in acute lung injury and severe sepsis. Twenty-one sheep (37 ± 2 kg) were operatively prepared and randomly allocated to either the sham, control, or treatment group (n = 7 each). Single treatments of rhAPC or ceftazidime were published previously; therefore, control groups were dispensed in the present study, what may be considered a study limitation. ⋯ Treated sheep had significantly improved hemodynamics as reflected by mean arterial pressure, heart rate, cardiac index, and systemic vascular resistance index (P < 0.05 each). In addition, plasma oncotic pressure and urine output were significantly improved (P < 0.05 each). Combined rhAPC and ceftazidime significantly improved cardiopulmonary function, reduced pulmonary and cardiac tissue injury, and prevented the onset of acute respiratory distress syndrome in ovine severe sepsis without obvious adverse effects.
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This study was designed to investigate the acute effects of balanced versus unbalanced colloid resuscitation on renal macrocirculatory and microcirculatory perfusions during lipopolysaccharide-induced endotoxemic shock in rats. We tested the hypothesis that balanced colloid resuscitation would be better for the kidney than unbalanced colloid resuscitation. Shock was induced by lipopolysaccharide (10 mg/kg i.v. over 30 min). ⋯ Both HES-NaCl and HES-RA treatment could normalize creatinine clearance but not fractional sodium excretion. In endotoxemic rats, balanced colloid (HES) resuscitation was shown to be superior to unbalanced colloid resuscitation in terms of improvement of renal macrovascular and microvascular perfusions. However, whether this results in improved renal function in the long term warrants further study.
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Tissue-specific circulating micro-RNAs (miRNAs) are released into the blood after organ injury. In an ischemic porcine cardiogenic shock model, we investigated the release pattern of cardiac-specific miR-208b and liver-specific miR-122 and assessed the effect of therapeutic hypothermia on their respective plasma levels. Pigs were anesthetized, and cardiogenic shock was induced by inflation of a percutaneous coronary intervention balloon in the proximal left anterior descending artery for 40 min followed by reperfusion. ⋯ Therapeutic hypothermia significantly diminished the increase in miR-122 compared with the normothermic group (P < 0.005). In our model, hypothermia was initiated after coronary reperfusion and did not affect either myocardial damage as previously assessed by magnetic resonance imaging or the plasma level of miR-208b. Our results indicate that liver-specific miR-122 is released into the circulation in the setting of cardiogenic shock and that therapeutic hypothermia significantly reduces the levels of miR-122.
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Cardiac cycle is regulated by a complex interplay between autonomic nervous system and cardiac pacemaker cells. Decreased heart rate variability (HRV) and increased cardiac rhythm regularity are associated with poor prognosis in patients with systemic inflammation (e.g., sepsis). However, the underlying mechanism of decreased HRV in systemic inflammation is not understood. ⋯ The chronotropic responsiveness to adrenergic stimulation was identical in controls and endotoxin-treated rats. These data propose that systemic inflammation is linked to reduced cardiac responsiveness to cholinergic stimulation. This may lead to partial uncoupling of cardiac pacemaker cells from autonomic neural control and can explain decreased HRV during systemic inflammation.
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Excessive endoplasmic reticulum stress (ERS) disrupts protein translation, protein folding, and calcium homeostasis and may contribute to ischemia-reperfusion injury. Saponins extracted from the stems and leaves of Panax quinquefolium (PQS) protect rat myocardium against ischemia-reperfusion injury, but it is not known if suppression of ERS contributes to cardioprotection. Neonatal rat cardiomyocytes were subjected to hypoxia-reoxygenation (H-R) in the presence of PQS or vehicle. ⋯ We confirmed that PQS protects cardiomyocytes from H-R-induced injury and apoptotic cell death. Furthermore, PQS suppressed H-R-induced excessive ERS, as evidenced by reduced caspase 12 activation and decreased glucose-regulated protein 78, calreticulin, and CCAAT/enhancer-binding protein homologous protein overexpression. These results indicated that PQS could alleviate H-R injury of cardiomyocytes, which would be probably related to inhibiting excessive ERS induced by H-R.