Monday, August 07, 2023

Liquid metal may be a 'Terminator terror' in the global fight against pathogens

Liquid metal may be a 'Terminator terror' in the global fight against pathogens
Graphical abstract. Credit: ACS Nano (2023). DOI: 10.1021/acsnano.3c06486

A new liquid metal combination is shaping up as a potential secret weapon in the global fight against antimicrobial resistance, which is already rendering some antibiotic medications powerless against 'superbugs'.

Scientists from the U.S. and Australia led by Flinders University have developed a simple metallic coating treatment for bandages, medical devices and even drug nanoparticles which are capable of resisting and killing bacteria.

The researchers from Flinders University's Biomedical Nanoengineering Laboratory, University of Sydney and North Carolina State University say the new approach involves testing 'GaLM' nanoscale liquid metal particles which have improved biocompatibility and low cytotoxicity to cells which could be applied as safe and effective antimicrobial agents.

"Gallium in its  (or 'GaLM') is one of the most promising candidates to be used as an antimicrobial agent, and can be used in many ways as a ," says Flinders University researcher Dr. Vi Khanh Truong, lead author of a new article in ACS Nano.

"The liquid state of GaLM enables it to be easily combined or functionalised with other components to create various forms of more efficient antimicrobial metals."

"As well gallium appears to be compatible with  in preparations and concentrations relevant to its , so could one day be administered orally or intravenous injection."

"This material's antimicrobial performance would also be activated by external stimuli (light, magnetic fields, and heat as well as others), resulting in novel solutions which can outperform antimicrobial mono-metallic nanoparticles and may lead to the next generation of antimicrobial and anti-inflammatory metal-based agents."

Led by international experts in the field, including Professor Michael Dickey from the US, Australian Research Ccouncil Laureate Professor Kourosh Kalantar-Zadeh and NHMRC Leadership Fellow Flinders University Professor Krasimir Vasilev—all authors on the new review article—research is expanding in metal-based antimicrobial strategies in a race to combat escalating threats of  (AMR).

Liquid metal may be a 'Terminator terror' in the global fight against pathogens
Dr Vi-Khanh Truong, from the Flinders University Biomedical Nanoengineering Laboratory,
has worked with leading US and Australian researchers in liquid metals. 
Credit: Flinders University

With AMR leading to different types of bacterial, fungal and  becoming untreatable, which can result in morbidity and mortality, phage (virus) therapy, immunotherapy, CRISPR-Cas technology and antibiotic combination therapy are other research approaches under way around the world.

The current strategies for infection control that rely on conventional synthetic antibiotics are increasingly failing, and the treatment "toolbox" is rapidly becoming exhausted, the new ACS article says.

"To make matters worse, the ability of bacteria to evolve to resist antibiotics provides a disincentive for pharmaceutical companies to pursue next-generation target antibiotics."

Dr. Truong, from the Flinders University Biomedical Nanoengineering Laboratory, says the ACS Nano study examines how combining gallium with other elements "expands the realm of GaLMs with tunable features."

"In contrast to solid-state particles, GaLM particles can dramatically transform their configurations in response to . Interestingly, GaLMs in the liquid state can transform their shape around and inside cells."

"Moreover, in their liquid state, GaLMs can dissolve and sequester metallic elements that can later be released on demand via stimuli. This is especially useful for improving the efficiency of the release of drugs."

"Compared to solid metals, GaLMs appear to be benign for eukaryotes (indicating biocompatibility with human tissue) while retaining potent antimicrobial activity."

"It is important to highlight that the antimicrobial activity of GaLMs, in bulk and nano dimensions, is not limited to prokaryotes such as bacteria and cyanobacteria," he adds.

"In addition, GaLMs offer anti-inflammatory properties and we also examined the role of phase behavior and interfaces in nanoscale GaLMs on antibacterial properties."

More information: Vi Khanh Truong et al, Gallium Liquid Metal: Nanotoolbox for Antimicrobial Applications, ACS Nano (2023). DOI: 10.1021/acsnano.3c06486


Journal information: ACS Nano 


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