Development of a multiplex dipstick immunoassay for the rapid quantitative determination of Fusarium toxins in cereals

Development, validation and one-site testing of immunoassays for rapid mycotoxin detection is one of the priority tasks of the MycoKey project (http://www.mycokey.eu/), an EU multidisciplinary project, aimed to develop smart solutions to reduce the major occurring mycotoxins in economically important food and feed chains. In this framework, a multiplex dipstick immunoassay based method for the simultaneous quantitative determination of major Fusarium toxins, namely deoxynivalenol (DON), zearalenone (ZEA), and fumonisins (FUM) in cereals (wheat, barley and maize) is under development. The dipstick format is based on an indirect competitive approach. The DON/ZEA/FUM prototype is based on a nitrocellulose lateral flow device using a reader to enable quantitative determination of mycotoxin contamination in cereal extracts. Three test lines (mycotoxin-BSA conjugates) and one control line are located on the strip membrane, whereas labeled antibodies were freeze-dried within a microwell. The prototype strip test development included the following steps: definition of coating process and detection reagent formulation parameters; definition of assay parameters like incubation time, migration time, volume sampling to reach minimum performance requested in term of LoD (limit of detection), LoQ (limit of quantification); development of a sample preparation protocol allowing satisfactory mycotoxin recoveries. The total time of analysis is 25 minutes including pre analytical treatment. Preliminary results showed the DON/ZEA/FUM prototype to be compatible with the minimum acceptable performances, and to be suitable for its application to the analysis of real samples containing the target mycotoxins at levels close to EU regulatory levels.