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J Control Release ; 153(1): 4-15, 2011 Jul 15.
Article in English | MEDLINE | ID: mdl-21277919

ABSTRACT

Perfluorocarbon nanoemulsions can deliver lipophilic therapeutic agents to solid tumors and simultaneously provide for monitoring nanocarrier biodistribution via ultrasonography and/or (19)F MRI. In the first generation of block copolymer stabilized perfluorocarbon nanoemulsions, perfluoropentane (PFP) was used as the droplet forming compound. Although manifesting excellent therapeutic and ultrasound imaging properties, PFP nanoemulsions were unstable at storage, difficult to handle, and underwent hard to control phenomenon of irreversible droplet-to-bubble transition upon injection. To solve the above problems, perfluoro-15-crown-5-ether (PFCE) was used as a core forming compound in the second generation of block copolymer stabilized perfluorocarbon nanoemulsions. PFCE nanodroplets manifest both ultrasound and fluorine ((19)F) MR contrast properties, which allows using multimodal imaging and (19)F MR spectroscopy for monitoring nanodroplet pharmacokinetics and biodistribution. In the present paper, acoustic, imaging, and therapeutic properties of unloaded and paclitaxel (PTX) loaded PFCE nanoemulsions are reported. As manifested by the (19)F MR spectroscopy, PFCE nanodroplets are long circulating, with about 50% of the injected dose remaining in circulation 2h after the systemic injection. Sonication with 1-MHz therapeutic ultrasound triggered reversible droplet-to-bubble transition in PFCE nanoemulsions. Microbubbles formed by acoustic vaporization of nanodroplets underwent stable cavitation. The nanodroplet size (200nm to 350nm depending on a type of the shell and conditions of emulsification) as well as long residence in circulation favored their passive accumulation in tumor tissue that was confirmed by ultrasonography. In the breast and pancreatic cancer animal models, ultrasound-mediated therapy with paclitaxel-loaded PFCE nanoemulsions showed excellent therapeutic properties characterized by tumor regression and suppression of metastasis. Anticipated mechanisms of the observed effects are discussed.


Subject(s)
Antineoplastic Agents, Phytogenic/administration & dosage , Drug Delivery Systems/methods , Fluorocarbons/chemistry , Neoplasms/diagnostic imaging , Neoplasms/therapy , Paclitaxel/administration & dosage , Ultrasonic Therapy/methods , Animals , Antineoplastic Agents, Phytogenic/therapeutic use , Breast Neoplasms/diagnostic imaging , Breast Neoplasms/therapy , Cell Line, Tumor , Emulsions/chemistry , Female , Humans , Mice , Nanomedicine/methods , Paclitaxel/therapeutic use , Pancreatic Neoplasms/diagnostic imaging , Pancreatic Neoplasms/therapy , Ultrasonography
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