Ultrasound-assisted fabrication of acoustically active, erythrocyte membrane “bubbles”

Mark Louis P. Vidallon, Rico F. Tabor, Alexis I. Bishop, Boon Mian Teo

Research output: Contribution to journalArticleResearchpeer-review

6 Citations (Scopus)

Abstract

In this communication, we report an ultrasound-assisted method, utilising human red blood cell (RBC) or erythrocyte membranes, to produce acoustically active “bubbles”, intended for vasculature imaging. The resulting RBC membrane bubbles have an average size of 1.5 μm with a generally spherical morphology, altered internal aqueous compartment contents, and small gas-containing protrusions or “pockets” in between the membrane bilayer. We also found that this method produced some nanobubbles (200–400 nm diameter), due to the shedding of lipid components from the RBC membranes to compensate for the membrane structural changes. In vitro ultrasound imaging showed that RBC membrane bubbles had comparable ultrasound contrast enhancement as the standard DEFINTYTM microbubble preparation (~13% v/v) and lower concentrations of this standard contrast agent. This current technology demonstrate a new and important application of ultrasound and of RBC membranes, having inherent biocompatibility, as potential material for the development of new types of ultrasound imaging agents, without the use of additional lipid components and pre-made microbubbles.

Original languageEnglish
Article number105429
Number of pages4
JournalUltrasonics Sonochemistry
Volume72
DOIs
Publication statusPublished - Apr 2021

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