The Impact of Lipid Handling and Phase Distribution on the Acoustic Behavior of Microbubbles

The Impact of Lipid Handling and Phase Distribution on the Acoustic Behavior of Microbubbles

Phospholipid-coated microbubbles are ultrasound contrast agents that can be employed for ultrasound molecular imaging and drug delivery. For safe and effective implementation, microbubbles must respond uniformly and predictably to ultrasound. Therefore, we investigated how lipid handling and phase d...

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Bibliographic Details
Published in:Pharmaceutics Vol. 13; no. 1; p. 119
Main Authors: Langeveld, Simone A G, Beekers, Inés, Collado-Lara, Gonzalo, van der Steen, Antonius F W, de Jong, Nico, Kooiman, Klazina
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 19-01-2021
MDPI
Subjects:
acoustic response
Acoustics
Cholesterol
ligand distribution
Ligands
Lipids
microbubble
phospholipid coating
Polyethylene glycol
Solvents
Ultrasonic imaging
ultrasound contrast agents
Oregon
Netherlands
United States > US
Germany
ligand distribution
phospholipid coating
acoustic response
ultrasound contrast agents
lipid phase
cholesterol
microbubble
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Summary:Phospholipid-coated microbubbles are ultrasound contrast agents that can be employed for ultrasound molecular imaging and drug delivery. For safe and effective implementation, microbubbles must respond uniformly and predictably to ultrasound. Therefore, we investigated how lipid handling and phase distribution affected the variability in the acoustic behavior of microbubbles. Cholesterol was used to modify the lateral molecular packing of 1,2-distearoyl- -glycero-3-phosphocholine (DSPC)-based microbubbles. To assess the effect of lipid handling, microbubbles were produced by a direct method, i.e., lipids directly dispersed in an aqueous medium or indirect method, i.e., lipids first dissolved in an organic solvent. The lipid phase and ligand distribution in the microbubble coating were investigated using confocal microscopy, and the acoustic response was recorded with the Brandaris 128 ultra-high-speed camera. In microbubbles with 12 mol% cholesterol, the lipids were miscible and all in the same phase, which resulted in more buckle formation, lower shell elasticity and higher shell viscosity. Indirect DSPC microbubbles had a more uniform response to ultrasound than direct DSPC and indirect DSPC-cholesterol microbubbles. The difference in lipid handling between direct and indirect DSPC microbubbles significantly affected the acoustic behavior. Indirect DSPC microbubbles are the most promising candidate for ultrasound molecular imaging and drug delivery applications.
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ISSN:1999-4923
1999-4923
DOI:10.3390/pharmaceutics13010119