Preparation of novel curcumin-loaded multifunctional nanodroplets for combining ultrasonic development and targeted chemotherapy

Recently, a new class of multifunctional nanodroplets that combine the properties of polymeric drug carriers, ultrasound imaging contrast agents, and enhancers of ultrasound-mediated drug delivery has been developed. We studied the formation mechanism of nanodroplets of a drug and its application in chemotherapy. Curcumin was loaded in polymeric micelles as a anti-cancer drug using polyethylene glycol block-poly(caprolactone) with encapsulation efficiency of 95.60%. At room temperature, the developed systems comprised perfluorocarbon nanodroplets stabilized by walls comprising biodegradable block copolymers. Upon heating to 37 degrees C, the nanodroplets were converted to nano/microbubbles. Under ultrasound, nanobubbles cavitated and collapsed, resulting in release of the encapsulated drug. The percentage release of curcumin-loaded nanodroplets by insonation was 90.95%, showing enhancement compared with the non-ultrasound group. Nanodroplets strongly retained the loaded drugs in vivo yet, under ultrasound-mediated vaporization, they released the drugs, thereby implementing effective targeting into the tumor. The tumor inhibition of the group in which curcumin-loaded nanodroplets were combined with ultrasound was 71.30%, more than that of the group of curcumin-loaded nanodroplets (53.00%). Nanodroplets showed high enhancement of anti-cancer effects under ultrasound. Upon intravenous injection, a long-lasting, strong and selective ultrasound contrast was observed, suggesting their coalescence into larger, highly echogenic microbubbles. These multifunctional nanodroplets, which manifest excellent therapeutic and ultrasound properties, could be promising anti-cancer drug delivery systems. (C) 2014 Elsevier B.V. All rights reserved.