Ultrasound Trigger Ultrasmall Multifunction Nanobubbles for Thrombus Visual Treatment

Abstract Intravenous injection of thrombolytic drugs is the prevailing strategy for the treatment of thrombotic disease. However, its applications are limited due to hemorrhagic risk and thrombus microenvironment. In pursuit of visualized thrombolysis and inspired by the excessive reactive oxygen species (ROS) and inflammatory factors within the thrombus site, an ultrasmall nanobubble (CeO 2 /MnO X @UK@PFP) for integration of imaging and therapy by low intensity pulse ultrasound (LIPUS) trigger is designed, which achieved the visual delivery of Urokinas (UK) and ROS scavenging agents to adjust thrombus microenvironment. In this study, CeO 2 /MnO X with ROS scavenging activity are prepared and wrapped with UK and perfluoropentane (PFP) by lipid layer, forming a CeO 2 /MnO X @UK@PFP. Under LIPUS, PFP undergoes phase transition from liquid to gas for real‐time imaging, meanwhile, CeO 2 /MnO X @UK@PFP is burst to release UK and CeO 2 /MnO X . UK is delivered to the side of the clot avoiding hemorrhagic risk. CeO 2 /MnO X @UK@PFP not only can detect the progression of thrombolytic treatment through ultrasound imaging (US) in real‐time but also play an important role in the elimination of excessive ROS at the thrombus microenvironment for protecting endangium. Taken together, the in vitro and in vivo experiments illustrated that CeO 2 /MnO X @UK@PFP displayed excellent efficiency in thrombolysis visual, anti‐inflammation, and ROS scavenging.