Abstract
BackgroundSepsis and septic shock are major healthcare problems, affecting millions of individuals around the world each year. Pathophysiologically, septic multiple organ dysfunction (MOD) is a life-threatening condition caused by an overwhelming systemic inflammatory response of the host’s organism to an infection. We experimentally tested if high circulating cytokine levels might increase vascular permeability—a critical hallmark of the disease—and if this phenomenon can be reversed by therapeutic cytokine removal (CytoSorb®) in an exemplary patient.Case presentationA 32-year-old Caucasian female presented with septic shock and accompanying acute kidney injury (Sequential Organ Failure Assessment (SOFA) = 18) to our ICU. In spite of a broad anti-infective regimen, adequate fluid resuscitation, and high doses of inotropics and catecholamines, she remained refractory hypotensive. The extraordinary severity of septic shock suggested an immense overwhelming host response assumingly accompanied by a notable cytokine storm such as known from patients with toxic shock syndrome. Thus, a CytoSorb® filter was added to the dialysis circuit to remove excess shock-perpetuating cytokines. To analyze the endothelial phenotype in vitro before and after extracorporeal cytokine removal, we tested the septic shock patient’s serum on human umbilical vein endothelial cells (HUVECs). The effect on endothelial integrity was assessed both on the morphological (fluorescent immunocytochemistry for VE-cadherin and F-actin) and functional (transendothelial electrical resistance (TER)) level that was recorded in real time with an “electric cell-substrate impedance sensing” (ECIS) system (ibidi). We found (1) severe alterations of cell-cell contacts and the cytoskeletal architecture and (2) profound functional permeability changes, the putative cellular correlate of the clinical vascular leakage syndrome. However, the endothelial barrier was protected from these profound adverse effects when HUVECs were challenged with septic shock serum that was collected after extracorporeal cytokine removal.ConclusionsBeneficial observations of extracorporeal cytokine removal in septic shock patients might—at least in part—be promoted via protection of vascular barrier function.
Highlights
Sepsis and septic shock are major healthcare problems, affecting millions of individuals around the world each year
Here, we report a case of a severely septic patient with multiple organ failure that was treated with a combination of extracorporeal membrane oxygenation (ECMO) and continuous veno-venous hemodialysis (CVVHD)
Consistent with the hypothesis of a putative interplay between circulating cytokines and altered vascular permeability, we found in cultured Endothelial cell (EC) that circulating cytokines in septic shock can negatively affect the vascular barrier
Summary
Consistent with the concept that circulating cytokines interact with the endothelial surface layer and these cytokines can induce pathological vascular permeability, we observed profound alterations of the endothelial morphology and function when challenged with human septic shock serum in vitro. These cellular changes—that clinically represent the vascular barrier breakdown—were not detectable when serum from the same patient after extracorporeal cytokine removal was used. No doubt that this report from a single patient is hypothesis generating in nature so that a future systematic study is highly desirable
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