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Inhibition of Inflammation-Associated Thrombosis with ROS-Responsive Heparin-DOCA/PVAX Nanoparticles.

Zehong XiangYanming WangZhifang MaZhirong XinRunhai ChenQiang ShiShing-Chung WongJinghua Yin
Published in: Macromolecular bioscience (2019)
Inflammation-associated thrombosis is a non-negligible source of mortalities and morbidities worldwide. To manipulate inflammation-associated coagulation, nanoparticles that contain anti-inflammatory polymer (copolyoxalate containing vanillyl alcohol, PVAX) and anti-thrombotic heparin derivative deoxycholic acid (Hep-DOCA) are prepared. The strategy takes advantage of the reducted side effects of heparin through heparin conjugation, achievement of long-term anti-inflammation by inflammation-trigged release of anti-inflammatory agents, and formation of PVAX/heparin-DOCA nanoparticles by co-self-assembly. It is demonstrated that the Hep-DOCA conjugate and PVAX are synthesized successfully; PVAX and Hep-DOCA nanodrugs (HDP) are obtained by co-assembly; the HDP nanoparticles effectively reduce the inflammation and coagulation without inducing lethal bleeding both in vivo and in vitro. The method provided here is versatile and effective, which paves new way to develop nanodrugs to treat inflammation-associated thrombosis safely.
Keyphrases
  • oxidative stress
  • venous thromboembolism
  • anti inflammatory
  • growth factor
  • dna damage
  • cell death
  • atrial fibrillation
  • reactive oxygen species