Formulation of Aflatoxins B1 & B2 reduction in corn by low level gamma irradiation

Abstract

Corn is one of the main food items for humans and animals. Contamination of corn with aflatoxin during harvest, storage, and transport is one of the human problems. Different methods for removing and inactivating aflatoxin in corn have been introduced so far. In this research, using the gamma radiation caused by radioactive granite, the reduction of corn aflatoxin was investigated with practical and simulation methods. In a practical method by simulation result, the aflatoxin reduction as a function of time and granite gamma radiation dose in corn were calculated. The simulation was done with the Mont Carlo N-Particle X version (MCNPX) code that based on the Monte Carlo method. Results show that the relationship between the percentage of aflatoxin reduction and the irradiation time (t (day)) is 0.017 × t. Due to the low-level gamma dose of granite, the percentage of protein, fat, and vitamins in corn does not change with granite irradiation. Therefore, the results show that the use of low granite gamma radiation to reduce aflatoxin can improve physicochemical properties, reduce aflatoxin levels and increase the antioxidant properties of corn, which has ultimately reduced the risk of developing cancer caused by aflatoxin.