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Biocompatible and Photostable Photoacoustic Contrast Agents as Nanoparticles Based on Bodipy Scaffold and Polylactide Polymers: Synthesis, Formulation, and In Vivo Evaluation

Publié le - ACS Applied Materials & Interfaces

Auteurs : Jean-Baptiste Bodin, Jérôme Gateau, Justine Coïs, Théotim Lucas, Flora Lefebvre, Laurence Moine, Magali Noiray, Catherine Cailleau, Stéphanie Denis, Gilles Clavier, Nicolas Tsapis, Rachel Méallet-Renault

We have designed a new Bodipy scaffold for efficient in vivo photoacoustic (PA) imaging of nanoparticles commonly used as drug nanovectors. The new dye has an optimized absorption band in the near-infrared window in biological tissue and a low fluorescence quantum yield that leads to a good photoacoustic generation efficiency. After Bodipy-initiated ring opening polymerization of lactide, the polylactide-Bodipy was formulated into PEGylated nanoparticles (NPs) by mixing with PLA-PEG at different concentrations. Formulated NPs around 100 nm exhibit excellent PA properties: absorption band at 760 nm and molar absorption coefficient in between molecular PA absorbers and gold NPs. Highly improved photostability-compared to cyanine-labelled PLA NPs as well as innocuity in cultured macrophages were demonstrated. After intravenous injection in healthy animals, NPs were easily detected using a commercial PA imaging system and spectral unmixing, opening the way to their use as theranostic agents.