Physicists demonstrate that coating bubbles with protein results in a highly stable contrast agent for medical use

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Credit: Proceedings of the National Academy of Sciences (2023). DOI: 10.1073/pnas.2211509120

Inspired by the bubbles bacteria create inside their cells, researchers developed a similar system by coating tiny gas vesicles with protein. The resulting bubbles are safe, highly stable, and function as contrast agent in medical applications. They could be used to diagnose, for example, cardiological issues, blood flow, and liver lesions.

Bacteria produce gas vesicles, tiny thin-walled sacs filled with air or fluid, to help them float. This phenomenon has captured the attention of scientists who see potential for similar bubble-based designs in fields like medicine.

A team of researchers at Aalto University’s Department of Applied Physics, led by Professor Robin Ras, have now used the same idea to create a new kind of contrast agent for use in medical applications such as ultrasound imaging. The research was recently published in the Proceedings of the National Academy of Sciences.

Natural materials and biological inspiration

The researchers created bubbles, referred to as giant gas vesicles, ranging from 10 to 100 micrometers in length, and measured their mechanical properties with a technique called micropipette aspiration. The bubbles were coated with proteins called hydrophobins, which come from fungi. In addition, the team developed a theory to better understand the intricacies of compressibility and porosity in micro-scale physics.

“By studying the mechanical properties of gas vesicles and developing our own micropipette technique, we were able to make the bubbles stable enough to withstand pressures like the ones you would find in the human body. The bubbles function as a contrast agent, and potentially could be used to diagnose things like cardiological issues, blood flow, and liver lesions with ultrasound in the future,” says Doctoral Researcher Hedar Al-Terke.

“We have significantly extended the theoretical framework of the pipette aspiration technique. It can now be used to fully characterize the mechanical properties, including porosity, of compressible gas-filled systems such as the hydrophobin-coated bubbles used in this study,” says Research Fellow Grégory Beaune.

The research on giant gas vesicles is part of the team’s focus on researching the medical applications of micro-scale physics.

More information:
Hedar H. Al-Terke et al, Compressibility and porosity modulate the mechanical properties of giant gas vesicles, Proceedings of the National Academy of Sciences (2023). DOI: 10.1073/pnas.2211509120

Provided by
Aalto University


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Physicists demonstrate that coating bubbles with protein results in a highly stable contrast agent for medical use (2023, January 20)
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