An Intelligent Nanotheranostic Agent for Targeting, Redox‐Responsive Ultrasound Imaging, and Imaging‐Guided High‐Intensity Focused Ultrasound Synergistic Therapy
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Abstract
A novel multifunctional nanotheranostic agent with targeting, redox‐responsive ultrasound imaging and ultrasound imaging‐guided high‐intensity focused ultrasound (HIFU) therapy (MSNC‐PEG‐HASS‐PFH, abbreviated as MPHSS‐PFH) capabilities is developed. The redox‐responsive guest molecule release and ultrasound imaging functions can be both integrated in such a “smart” theranostic agent, which is accomplished by the redox‐triggered transition from the crosslinking state to retrocrosslinking state of the grafted polyethylene glycol‐disulfide hyaluronic acid molecules on the particle surface when reaching a reducing environment in vitro. More importantly, under the tailored ultrasound imaging guiding, in vivo Hela tumor‐bearing nude mice can be thoroughly and spatial‐accurately ablated during HIFU therapy, due to the targeted accumulation, responsive ultrasound imaging guidance and the synergistic ablation functions of nanotheranostic agent MPHSS‐PFH in the tumors. This novel multifunctional nano‐platform can serve as a promising candidate for further studies on oncology therapy, due to its high stability, responsive and indicative ultrasound imaging of tumors, and enhanced HIFU therapeutic efficiency and spatial accuracy under ultrasound‐guidance.
