A new approach to treating vascular blockages has been developed to overcome the limitations of current thrombolytic therapies. This approach involves biosafety and multimodal plasma-derived theranostic platelet vesicle incorporating iron oxide constructed nano-propellers platformed technology that possesses fluorescent and magnetic features and manifold thrombus targeting modes. The platform is capable of being guided and visualized remotely to specifically target thrombi, and it can be activated using near-infrared phototherapy along with an actuated magnet for magnetotherapy. In a murine model of thrombus lesion, this proposed multimodal approach showed an approximately 80 % reduction in thrombus residues. Moreover, the new strategy not only improves thrombolysis but also boosts the rate of lysis, making it a promising candidate for time-sensitive thrombolytic therapy.

Cell Physiology and Molecular Image Research Center Taipei Medical University Wan Fang Hospital Taipei 11696 Taiwan

Center for Plasma and Thin Film Technologies Ming Chi University of Technology New Taipei City Taiwan

Department of Chemical Engineering National Taiwan University No 1 Sec 4 Roosevelt Rd Taipei 10617 Taiwan

Department of Materials Engineering Ming Chi University of Technology New Taipei City Taiwan

Department of Physical Medicine and Rehabilitation Taipei Medical University Hospital Taipei Taiwan

Department of Plasma Physics and Technology Faculty of Science Masaryk University Brno Czech Republic

Graduate Institute of Nanomedicine and Medical Engineering Graduate Institute of Biomedical Materials and Tissue Engineering Institute of Biomedical Optomechatronics International Ph D Program in Biomedical Engineering School of Biomedical Engineering College of Biomedical Engineering Professional Master Program in Artificial Intelligence in Medicine College of Medicine Taipei Medical University Taipei 11031 Taiwan

Institute of Biomedical Engineering and Nanomedicine National Health Research Institute Keyan Road Zhunan Miaoli City 350 Taiwan

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