Abstract
During pregnancy, the maternal hemostatic system undergoes significant changes to support placental angiogenesis, maintain fetal blood flow, and ensure safe delivery. This study investigates the dysregulation of hemostasis in placental insufficiency and explores potential markers for diagnosing and managing this gestational complication. Thromboelastography, coagulation and fibrinolysis functional assays, ELISA, and immunoblotting were employed to assess hemostasis dysregulation in placental dysfunction of two cohorts of pregnant women with placental dysfunction and healthy controls. Thromboelastographic analysis revealed no significant differences in clot lysis indices between the control and placental dysfunction groups, with values remaining within normal ranges, suggesting this method's limitations for assessing fibrinolysis in pregnancy. The placental dysfunction group demonstrated moderately increased fibrinogen levels and platelet sensitivity to ADP, indicating hemostasis reactiveness. Significantly lower D-dimer levels, decreased plasminogen activator inhibitor activity (total PAI-1 + PAI-2), and increased plasminogen activator activity, driven primarily by uPA in the placental dysfunction group, indicated abnormal fibrinolysis. Immunoblotting confirmed elevated uPA/uPA-PAI complexes and reduced tPA/tPA-PAI complexes, indicating that shutdown of tPA-mediated fibrinolysis and induction of uPA-driven vessel-wall-associated proteolysis are linked to placental dysfunction. Placental dysfunction involves fibrinolytic system dysregulation, marked by decreased PAI and tPA, uPA overproduction, and hypofibrinolysis, contributing to thrombotic risks, impaired placental flow, and complications like fetal growth retardation. PAI/PA ratio and D-dimer levels have diagnostic potential for placental-dysfunction-associated complications.