Association of sublingual microcirculation parameters and endothelial glycocalyx dimensions in resuscitated sepsis.

BACKGROUND: The endothelial glycocalyx (eGC) covers the luminal surface of the vascular endothelium and plays an important protective role in systemic inflammatory states and particularly in sepsis. Its breakdown leads to capillary leak and organ dysfunction. Moreover, sepsis-induced alterations of sublingual microcirculation are associated with a worse clinical outcome. The present study was performed to investigate the associations between eGC dimensions and established parameters of microcirculation dysfunction in sepsis. METHODS: This observational, prospective, cross-sectional study included 40 participants, of which 30 critically ill septic patients were recruited from intensive care units of a university hospital and 10 healthy volunteers served as controls. The established microcirculation parameters were obtained sublingually and analyzed according to the current recommendations. In addition, the perfused boundary region (PBR), an inverse parameter of the eGC dimensions, was measured sublingually, using novel data acquisition and analysis software (GlycoCheck™). Moreover, we exposed living endothelial cells to 5% serum from a subgroup of study participants, and the delta eGC breakdown, measured with atomic force microscopy (AFM), was correlated with the paired PBR values. RESULTS: In septic patients, sublingual microcirculation was impaired, as indicated by a reduced microvascular flow index (MFI) and a reduced proportion of perfused vessels (PPV) compared to those in healthy controls (MFI, 2.93 vs 2.74, p = 0.002; PPV, 98.53 vs 92.58, p = 0.0004). PBR values were significantly higher in septic patients compared to those in healthy controls, indicating damage of the eGC (2.04 vs 2.34, p < 0.0001). The in vitro AFM data correlated exceptionally well with paired PBR values obtained at the bedside (rs = - 0.94, p = 0.02). Both PBR values and microcirculation parameters correlated well with the markers of critical illness. Interestingly, no association was observed between the PBR values and established microcirculation parameters. CONCLUSION: Our findings suggest that eGC damage can occur independently of microcirculatory impairment as measured by classical consensus parameters. Further studies in critically ill patients are needed to unravel the relationship of glycocalyx damage and microvascular impairment, as well as their prognostic and therapeutic importance in sepsis. TRIAL REGISTRATION: Retrospectively registered: Clinicaltrials.gov, NCT03960307.

Sole causal therapy worsens outcome as compared to no therapy and combined causal and goal-directed supportive therapy in ovine septic shock.

BACKGROUND: There is clear evidence that early causal therapy improves outcome in sepsis and septic shock, whereas recent studies on supportive hemodynamic therapy have produced very conflictive results. The objective of the present study was to determine whether a supportive hemodynamic therapy guided by clinically relevant invasive monitoring improves survival and organ function in a high-lethality model of septic shock in sheep as compared to sole causal therapy including surgical and antimicrobial treatment. METHODS: Twenty healthy ewes were anaesthetized and instrumented for hemodynamic surveillance. After laparotomy and fecal withdrawal from the caecum, animals were randomly assigned to one of four groups: sham, control, causal and combined therapy. In all groups but the sham group, feces were injected into the peritoneal cavity. Septic shock was defined as mean arterial pressure (MAP) ≤60 mmHg and arterial lactate concentration ≥1.8 mmol·L-1. Animals of the control group received no therapy, while the causal group received broad-spectrum antibiotic therapy and peritoneal lavage. The combined therapy group received causal therapy plus supportive hemodynamic therapy. RESULTS: The sham animals showed no signs of systemic infection, while all other animals developed septic shock with arterial hypotension and lactic acidosis within 4.0 (4.0-6.8) hours. Induction of causal therapy did not impact on haemodynamics as compared to the control group. Notably, 50% of the control animals and none of the causal therapy animals survived the study. Combined therapy stabilized haemodynamics and improved organ function and survival as compared to control and causal therapy groups. CONCLUSIONS: The present data suggest that sole causal sepsis therapy without hemodynamic support worsens outcome even more than natural evolution of sepsis and combined causal and supportive therapy. This underlines the importance of early hemodynamic stabilization in parallel with antibiotic and surgical treatment of the sepsis focus.