Molds produce harmful substances called mycotoxins that damage food and buildings. Scientists developed a mathematical formula to predict how cold plasma can kill mold colonies. This model works faster than actual experiments and could help control mold in food storage and building materials without using toxic chemicals.
This research develops a mathematical model to predict how cold atmospheric plasma kills mold colonies on surfaces. Using experiments with Aspergillus brasiliensis, scientists found that when plasma treatment strength matches the mold’s natural growth rate, the mold stops growing and eventually dies. The model can provide predictions in minutes that would normally take weeks of laboratory testing, making it useful for food industry and building material applications.
Researchers tested a new treatment called cold atmospheric plasma (CAP) combined with antifungal medications against fungi that cause serious eye infections. CAP, which generates reactive molecules without heat, was found to make antifungal drugs work better against two major fungal pathogens. In some cases, drugs that previously didn’t work started working when combined with CAP. This approach could help treat difficult fungal eye infections that are resistant to standard medications.