Injury-induced endotheliopathy: What you need to know

Twitter: @JCCardenas52 The endotheliopathy of trauma involves a complex interplay between the glycocalyx, von Willebrand factor, and platelets that leads to abnormalities in coagulation, inflammation, and endothelial cell (EC) function. The current review presents a synopsis of EC function under homeostatic conditions, the structure and function of the endothelial glycocalyx; mechanisms of EC injury and activation after trauma; pathological consequences of the EoT at the cellular level; and clinical implications of the EoT. Recent evidence is presented that links the EoT to extracellular vesicles and hyperadhesive ultralarge von Willebrand factor multimers through their roles in coagulopathy. Lastly, potential therapeutics to mitigate the EoT are discussed. Most research to date has focused on blood products, primarily plasma, and its contribution to restoring postinjury EC dysfunction. Additional therapeutic adjuvants that target the glycocalyx, ultralarge von Willebrand factor, low ADAMTS-13, and pathologic extracellular vesicles are reviewed. Much of the pathobiology of EoT is known, but a better mechanistic understanding can help guide therapeutics to further repair the EoT and improve patient outcomes.