Abstract
Aflatoxins, toxic secondary metabolites produced by certain fungi, pose significant risks to human and animal health due to their presence in food and agricultural products. Traditional methods of aflatoxin degradation often compromise product quality. This study aims to evaluate the effectiveness of cold plasma technology in degrading aflatoxins while preserving the quality of the treated products. A comprehensive review of the current literature was conducted, focusing on studies that applied cold plasma technology for aflatoxin degradation. The analysis included various parameters such as plasma generation methods, exposure times, and the impact on the nutritional and sensory quality of the treated products. Cold plasma technology was found to be highly effective in degrading aflatoxins across different food matrices. The low-temperature operation of cold plasma ensures minimal impact on the quality of agricultural and food products, making it especially suitable for temperature-sensitive items. The technology works by generating reactive species that target and neutralize the toxic properties of aflatoxins. Compared to traditional methods, cold plasma offers a safer and more efficient alternative for aflatoxin degradation. Cold plasma technology presents a promising solution for aflatoxin degradation with significant advantages over conventional methods. Its ability to maintain product quality while effectively neutralizing aflatoxins underscores its potential for broader application in food safety management. Further research is warranted to optimize its use and fully understand its implications for human and animal health.