Nanoparticle‐Loaded Protein–Polymer Nanodroplets for Improved Stability and Conversion Efficiency in Ultrasound Imaging and Drug Delivery

Abstract: A new formulation of volatile nanodroplets stabilized by a protein and polymer coating and loaded with magnetic nanoparticles is developed. The droplets show enhanced stability and phase conversion efficiency upon ultrasound exposure compared with existing formulations. Magnetic targeting, encapsulation, and release of an anticancer drug are demonstrated in vitro with a 40% improvement in cytotoxicity compared with free drug.

“…[9] Amphiphilic chitosan oligosaccharide and deoxycolic acid (COSD) were synthesized by a coupling reaction of succinimido deoxycholic acids to the primary amine group of chitosan chains [22] (Figure S1, Supporting Information). COSD nanoparticles (CPs) incorporating magnetic nanoparticles in their core were prepared by an oil-in-water emulsification method.…”

“…Details of this device have been published previously [9] but briefly the resonator consists of a piezoelectric transducer, a carrier layer which couples the acoustic energy to the other components of the device, a fluid layer with nanodroplets in suspension, and a reflector layer which reflects the acoustic energy back into the device. The experimentally measured resonance frequency for the device was ≈1.85 MHz, in agreement with computational predictions.…”

“…[14] However, the theoretical prediction did not take into account the additional surface pressure produced by the shell, coalescence of individual bubbles in close proximity to each other, or absorption of dissolved gases from the phosphate buffered saline (PBS). [9,15] Moreover, there may have been an effect of temperature rise over the course of the experiment, although the maximum liquid temperature measured after 3 min of continuous wave ultrasound exposure was only ≈42 °C ( Figure S6, Supporting Information).…”

“…[9] Figure 4a-c shows maps of summed cavitation energy overlaid on B-mode images from each experiment. When water was exposed to ultrasound in the absence of any particles, the maximum PAM signal was 79.26 energy units (please see the Experimental Section) and the energy distribution was comparatively uniform.…”

“…[8] We have previously demonstrated that both the stability and phase conversion efficiency of nanodroplets can be considerably improved by the inclusion of iron oxide nanoparticles. [9] The resulting droplets were able to enhance the delivery of a conventional chemotherapy drug, paclitaxel, generating a 40% improvement in cytotoxicity compared with free drug.…”

Ultrasound‐Enhanced siRNA Delivery Using Magnetic Nanoparticle‐Loaded Chitosan‐Deoxycholic Acid Nanodroplets

“…[9] Amphiphilic chitosan oligosaccharide and deoxycolic acid (COSD) were synthesized by a coupling reaction of succinimido deoxycholic acids to the primary amine group of chitosan chains [22] (Figure S1, Supporting Information). COSD nanoparticles (CPs) incorporating magnetic nanoparticles in their core were prepared by an oil-in-water emulsification method.…”

“…Details of this device have been published previously [9] but briefly the resonator consists of a piezoelectric transducer, a carrier layer which couples the acoustic energy to the other components of the device, a fluid layer with nanodroplets in suspension, and a reflector layer which reflects the acoustic energy back into the device. The experimentally measured resonance frequency for the device was ≈1.85 MHz, in agreement with computational predictions.…”

“…[14] However, the theoretical prediction did not take into account the additional surface pressure produced by the shell, coalescence of individual bubbles in close proximity to each other, or absorption of dissolved gases from the phosphate buffered saline (PBS). [9,15] Moreover, there may have been an effect of temperature rise over the course of the experiment, although the maximum liquid temperature measured after 3 min of continuous wave ultrasound exposure was only ≈42 °C ( Figure S6, Supporting Information).…”

“…[9] Figure 4a-c shows maps of summed cavitation energy overlaid on B-mode images from each experiment. When water was exposed to ultrasound in the absence of any particles, the maximum PAM signal was 79.26 energy units (please see the Experimental Section) and the energy distribution was comparatively uniform.…”

“…[8] We have previously demonstrated that both the stability and phase conversion efficiency of nanodroplets can be considerably improved by the inclusion of iron oxide nanoparticles. [9] The resulting droplets were able to enhance the delivery of a conventional chemotherapy drug, paclitaxel, generating a 40% improvement in cytotoxicity compared with free drug.…”

Ultrasound‐Enhanced siRNA Delivery Using Magnetic Nanoparticle‐Loaded Chitosan‐Deoxycholic Acid Nanodroplets

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