期刊
PHARMACEUTICS
卷 13, 期 12, 页码 -出版社
MDPI
DOI: 10.3390/pharmaceutics13122080
关键词
microbubbles; doxorubicin; stable cavitation; inertial cavitation; lipid fluidity
This study explores how loading the drug doxorubicin onto microbubbles affects their acoustic properties, finding that the drug loading capacity is determined by the proportion of certain lipid materials with distinct electrostatic properties. Loading doxorubicin onto microbubbles enhances acoustic stability, decreases resonance frequency, and reduces stable cavitation dose, demonstrating a significant impact on the elasticity and fluidity of the microbubble shell.
Previous studies have reported substantial improvement of microbubble (MB)-mediated drug delivery with ultrasound when drugs are loaded onto the MB shell compared with a physical mixture. However, drug loading may affect shell properties that determine the acoustic responsiveness of MBs, producing unpredictable outcomes. The aim of this study is to reveal how the surface loaded drug (doxorubicin, DOX) affects the acoustic properties of MBs. A suitable formulation of MBs for DOX loading was first identified by regulating the proportion of two lipid materials (1,2-distearoyl-sn-glycero-3-phosphocholine (DSPC) and 1,2-distearoyl-sn-glycero-3-phospho-rac-glycerol sodium salt (DSPG)) with distinct electrostatic properties. We found that the DOX loading capacity of MBs was determined by the proportion of DSPG, since there was an electrostatic interaction with DOX. The DOX payload reduced the lipid fluidity of MBs, although this effect was dependent on the spatial uniformity of DOX on the MB shell surface. Loading DOX onto MBs enhanced acoustic stability 1.5-fold, decreased the resonance frequency from 12-14 MHz to 5-7 MHz, and reduced stable cavitation dose by 1.5-fold, but did not affect the stable cavitation threshold (300 kPa). Our study demonstrated that the DOX reduces lipid fluidity and decreases the elasticity of the MB shell, thereby influencing the acoustic properties of MBs.
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