Photo Credit: Saehyun Kim, the University of Chicago
Scientists have developed a patch capable of tackling bacteria on the skin using mild electric pulses, which could help reduce infections if the bacteria were to enter the bloodstream. Known as the Bioelectronic Localized Antimicrobial Stimulation Therapy (BLAST) patch, this device emits a harmless electrical current designed to target specific skin bacteria that pose infection risks.
The device was recently tested on pig skin, which shares structural similarities with human skin and is often used in preclinical studies. Researchers applied Staphylococcus epidermidis bacteria to the skin, which usually resides on human skin without causing harm. However, when these bacteria are introduced into the body via medical devices like catheters, they can lead to severe infections.
When placed on the pig skin, the BLAST patch released electric pulses every ten minutes over an 18-hour period, delivering a mild charge comparable to that used in pacemakers. This method significantly reduced the formation of biofilms—dense layers that help bacteria cling to surfaces and evade treatments—resulting in a nearly tenfold decrease in bacterial levels on the treated skin.
In laboratory tests, S. epidermidis showed a response to electrical currents only when the skin environment was mildly acidic, similar to human skin's natural pH. Researchers enhanced this effect by adding an acidifying hydrogel to the BLAST patch. Acidity is critical to suppressing bacterial biofilm development, complicating infection control in medical settings.
Published on 24 October in the journal Device, the BLAST patch might also be effective in sterilising surfaces of medical devices, providing an added layer of protection against bacterial infections. Bozhi Tian, one of the study's authors and a professor of chemistry at the University of Chicago, noted that reducing reliance on preventive antibiotics could help address antibiotic resistance concerns.
Future research will explore BLAST's effectiveness on other bacterial strains and in animal and, eventually human trials. If proven successful, the device may offer a practical tool for infection prevention in medical facilities within five years.
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