BackgroundThe pathology of primary hemostasis is a common complication of extracorporeal membrane oxygenation (ECMO) support. Scientific data describing its changes in patients on short-term ECMO support and the ability and speed of the restoration of its functions are limited. AimsThe aim of this study was to describe the pathology of primary hemostasis induced by short-term ECMO support and its development over time using PFA-200®, ROTEM® platelet and von Willebrand factor (vWF) analyses. MethodsIn patients undergoing lung transplantation surgery using intra-operative veno-arterial ECMO support, blood samples were analyzed using the following tests: PFA-200®, ROTEM® platelet tests, vWF antigen, ristocetin cofactor (RCo) and collagen binding protein (CB) before, during and after ECMO support. ResultsBlood samples from 32 patients were analyzed. All three PFA-200® tests (COL/EPI, COL/ADP and COL/P2Y) showed significant deterioration during ECMO support with rapid restoration after ECMO cessation (p<0.05), suggesting an ECMO-induced primary hemostasis disorder. A significant increase of vWF antigen after ECMO cessation (p<0.05) was found with an increase of ristocetin cofactor and collagen binding protein levels, although it was not significant (p>0.05). ConclusionsShort-term ECMO support induces primary hemostasis pathology. It occurs immediately after initiation but is rapidly restored after ECMO cessation, which is detectable by PFA-200®. Despite there being persistent platelet dysfunction after ECMO cessation as seen with the ROTEM® platelet results, the increased levels of vWF antigen might explain the normal results of primary hemostasis detected by PFA-200®.