Endothelial cells line the inner portion of the heart, blood vessels, and lymphatic vessels; a basal membrane of extracellular matrix lines the extraluminal side of endothelial cells. The apical side of endothelial cells is the site for the glycocalyx, which is a complex network of macromolecules, including cell-bound proteoglycans and sialoproteins. Sepsis-associated alterations of this structure may compromise endothelial permeability with associated interstitial fluid shift and generalized edema. Indeed, in sepsis, the glycocalyx acts as a target for inflammatory mediators and leukocytes, and its ubiquitous nature explains the damage of tissues that occurs distant from the original site of infection. Inflammatory-mediated injury to glycocalyx can be responsible for a number of specific clinical effects of sepsis, including acute kidney injury, respiratory failure, and hepatic dysfunction. Moreover, some markers of glycocalyx degradation, such as circulating levels of syndecan or selectins, may be used as markers of endothelial dysfunction and sepsis severity. Although a great deal of experimental evidence shows that alteration of glycocalyx is widely involved in endothelial damage caused by sepsis, therapeutic strategies aiming at preserving its integrity did not significantly improve the outcome of these patients.
Background: Hemodialysis with high cut-off continuous veno-venous hemodialyzer (HCO-CVVHD) removes mediators of organ dysfunction during sepsis. This study assessed the clinical effects of HCO-CVVHD as compared to high-flux (HF) membranes during gram-negative sepsis. Methods: Intensive care unit (ICU), septic patients treated with HCO-CVVHD or HF-CVVHDF for AKI were retrospectively observed (January 2013-December 2014). Mechanical ventilation, vasopressors' requirements, ICU length of stay (LOS) and ICU in-hospital mortality were compared between groups. Results: Sixteen HCO and 8 HF patients were observed. Isolated pathogens included Klebsiella pneumoniae, Acinetobacter baumannii, Escherichia coli and Pseudomonas aeruginosa. Median ratios of days-on-vasopressors and days-on-mechanical ventilation/ICU-LOS were 0.5, 1 and 0.8, 1 for HCO and HF groups (p < 0.03), respectively. ICU-LOS was 16 and 9 days (HCO- and HF-group, p = 0.03). ICU mortality rates were 37.5 and 87.5% for HCO and HF groups, respectively (p = 0.03). No statistical difference was found in in-hospital morality. Conclusion: Patients in HCO-CVVHD group spent lesser number of days on vasopressors and mechanical ventilation as a ratio to total ICU-LOS. In the same group, a reduction in ICU mortality was observed.
The MIRUS system is a promising and safe alternative for short-term sedation with sevoflurane of ICU patients. Atmospheric pollution is largely below the recommended thresholds (< 5 parts per million). Studies extended to more heterogeneous population of patients undergoing longer duration of sedation are needed to confirm these observations.
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