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  • Title: An organic NIR-II nanofluorophore with aggregation-induced emission characteristics for in vivo fluorescence imaging.
    Author: Wu W, Yang YQ, Yang Y, Yang YM, Wang H, Zhang KY, Guo L, Ge HF, Liu J, Feng H.
    Journal: Int J Nanomedicine; 2019; 14():3571-3582. PubMed ID: 31213799.
    Abstract:
    Background: In vivo fluorescence imaging in the second near-infrared (NIR-II, 1000-1700 nm) window using organic fluorophores has great advantages, but generally suffers from a relatively low fluorescence quantum yield (mostly less than 2%). In this study, organic nanoparticles (L1013 NPs) with a high fluorescence quantum yield (9.9%) were systhesized for in vivo imaging. Methods: A molecule (BTPPA) with donor-acceptor-donor structure and aggregation-induced emission enabling moieties was prepared. BTPPA molecules were then encapsulated into nanoparticles (L1013 NPs) using a nanoprecipitation method. The L1013 NPs were intravenously injected into the mice (including normal, stroke and tumor models) for vascular and tumor imaging. Results: L1013 NPs excited at 808 nm exhibit NIR-II emission with a peak at 1013 nm and an emission tail extending to 1400 nm. They have a quantum yield of 9.9% and also show excellent photo/colloidal stabilities and negligible in vitro and in vivo toxicity. We use L1013 NPs for noninvasive real-time visualization of mouse hindlimb and cerebral vessels (including stroke pathology) under a very low power density (4.6-40 mW cm‒2) and short exposure time (40-100 ms). Moreover, L1013 NPs are able to localize tumor pathology, with a tumor-to-normal tissue ratio of 11.7±1.3, which is unusually high for NIR-II fluorescent imaging through passive targeting strategy. Conclusion: L1013 NPs demonstrate the potential for a range of clinical applications, especially for tumor surgery.
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