Purpose of review: There is considerable evidence that dysregulation of the coagulation and fibrinolytic systems plays a major role in the pathophysiology of severe sepsis, with a special focus on the protein C system. Conversely, there is an approval for use of recombinant human activated protein C in the more severe patients. This review highlights recent findings about the biology of the protein C system and of other important coagulation components such as tissue factor, platelets, and protein S, with an effort to link fundamental data and recent clinical findings.
Recent findings: There is a better comprehension of the biology of the thrombomodulin-protein C-endothelial protein C receptor complex, and mainly of its cellular effects via the protease activated receptor 1 receptor and of its implication in the generation of anticoagulant microparticles. The implications of other important agents such as platelets and von Willebrand factor, tissue factor, and protein S are also becoming increasingly evident, both from experimental and clinical studies. From a clinical point of view, the more immediately promising approach could be the ability to identify the fraction of severe sepsis patients exhibiting an impaired ability to activate protein C, raising the possibility to select the better candidates for activated protein C infusion.
Summary: The comprehension of the protein C pathway is undoubtedly progressing both in experimental and clinical settings. In parallel, some promising other coagulant pathways are also under investigation in the sepsis context, with a hope for major clinical implications in the future.