Study of vascular sclerosing agent based on the dual mechanism of vascular endothelial cell damage-plasmin system inhibition

Venous malformations are a vascular disorder. Currently, the use of chemical sclerosing agents is a common clinical approach for the treatment of venous malformations. However, the effectiveness of existing sclerosing agents is unsatisfactory and often accompanied by severe side effects. In this study, we have developed a novel cationic surfactant-based sclerosing agent (POL-TA) by conjugating the plasmin inhibitor tranexamic acid (TA) with a nonionic surfactant polidocanol (POL) through an ester bond. POL-TA induces endothelial cell damage, triggering the coagulation cascade and thrombus formation. Moreover, it releases TA in vivo, which inhibits plasmin activity and the activation of matrix metalloproteinase (MMPs), thereby stabilizing the fibrin network of the thrombus and promoting vascular fibrosis. We have established a cell model using venous malformation endothelial cells and assessed the cellular damage and underlying mechanisms of POL-TA. The inhibitory effects of POL-TA on the plasmin-MMPs system were evaluated using MMP-9 activity assay kit. Additionally, the mice tail vein model was employed to investigate the vascular sclerosing effects and mechanisms of POL-TA.

Automated summary

In this study, researchers developed a novel sclerosing agent called POL-TA. By inducing endothelial cell damage and releasing tranexamic acid, POL-TA can stabilize the fibrin network of thrombus and promote vascular fibrosis, which can be used for the treatment of venous malformations.