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Supercharged bandages to revolutionise chronic wound treatment

  • July 10, 2020

Newswise — World-first plasma-coated bandages with the power to attack infection and inflammation could revolutionise the treatment of chronic wounds such as pressure, diabetic or vascular ulcers that won’t heal on their own.

Developed by the University of South Australia, the novel coating comprises a special antioxidant which can be applied to any wound dressing to simultaneously reduce wound inflammation a¬¬nd break up infection to aid in wound repair.

In Australia, nearly half a million people suffer from chronic wounds, costing the health system an estimated AUD$3 billion each year. It’s a similar picture around the world with more than 5.7 million people suffering from chronic wounds in the United States, costing the economy an estimated USD$20 billion each year; and in the UK, more than 2 million people are currently living with chronic wounds at a cost of £5 billion per year.

With growing rates of global obesity, diabetes and an ageing population, chronic wounds are increasingly affecting large proportions of the general population, yet until this breakthrough discovery, few treatments have shown such positive results.

Lead researcher, Dr Thomas Michl, from UniSA STEM, says that upgrading current dressings with this state-of-the-art coating will promote effective healing on chronic wounds and reduce patient suffering.

“Proper care for chronic wounds requires frequent changes of wound dressings but currently, these wound dressings are passive actors in wound management,” Dr Michl says.

“Our novel coatings change this, turning any wound dressing into an active participant in the healing process – not only covering and protecting the wound, but also knocking down excessive inflammation and infection.

“No other method achieves this to date.”

The technology is highly scalable and sustainable, making it a viable option for broad application worldwide.

The team is now investigating the shelf-life of the coatings with encouraging results. Next steps are pre-clinical trials with products potentially available in two to three years.

 

Notes to editors:

Published papers associated with this work:

Michl, T. D.; Tran, D. T. T.; Kuckling, H. F.; Zhalgasbaikyzy, A.; Ivanovská, B.; González García, L. E.; Visalakshan, R. M.; Vasilev, K., It takes two for chronic wounds to heal: dispersing bacterial biofilm and modulating inflammation with dual action plasma coatings. RSC Advances 2020, 10 (13), 7368-7376.

Michl, T. D.; Thuy Thi Tran, D.; Böttle, K.; Frederike Kuckling, H.; Zhalgasbaikyzy, A.; Ivanovská, B.; Cavallaro, A.; Araque Toledo, M. A.; Sherman, P.; Al-Bataineh, S. A.; Vasilev, K., To be a radical or not to be one? The fate of the stable nitroxide radical TEMPO ((2,2,6,6-Tetramethylpiperidin-1-yl)oxyl) undergoing plasma polymerization into thin-film coatings. Biointerphases 2020, 15 (3), 031015.

Michl, T.D.; Barz, J.; Giles, C.; Haupt, M.; Henze, J. H.; Mayer, J.; Futrega, K.; Doran, M. R.; Oehr, C.; Vasilev, K.; Coad, B. R.; Griesser, H. J., Plasma Polymerization of Tempo Yields Coatings Containing Stable Nitroxide Radicals for Controlling Interactions with Prokaryotic and Eukaryotic Cells. ACS Applied Nano Materials 2018, 1, 6587-6595.

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