Strategien zur Reduktion von Mykotoxinen in Getreidenebenproduktströmen
Auf einen Blick
- Projektleiter/in : Dr. Nadina Müller
- Co-Projektleiter/in : Prof. Dr. Rebecca Buller, Dr. Irene Chetschik, Prof. Dr. Susanne Miescher Schwenninger
- Projektteam : Dr. Amandine André, Dr. Susette Freimüller Leischtfeld, Dr. Katrin Hecht, Katrin Jedrys, Dr. Mathias Kinner, Sandra Mischler, Ramona Rüegg, Andrea Tönz
- Projektvolumen : CHF 250'000
- Projektstatus : abgeschlossen
- Drittmittelgeber : Interne Förderung
- Kontaktperson : Nadina Müller
Beschreibung
Wheat is one of our key staple foods worldwide and offers high
nutritional value, especially when consumed in the form of whole
grain. Food safety has become a major challenge in crops in recent
years: an estimated 25% of all global crops are affected by
moulds1-2. Certain moulds produce mycotoxins, toxic compounds that
are chemically stable and survive food processing. Their
physiological effects upon consumption range from acute poisoning
to immune deficiency or cancer. In general, degree of contamination
goes down from outer to inner kernel layers3. This is why even
today white and medium-white flour are primarily produced despite
the development of sensorially desirable whole grain products and
why wheat bran is mostly used as animal feed or sometimes
burnt.
Our team consisting of researchers from ICBT and ILGI will work on
developing solutions to reduce mycotoxins in grain through
functional microorganisms and tailored enzymes combined with novel
processing approaches and show the validity of the result through
sophisticated analysis. As a result, the safe use of whole grain
and wheat bran with their significant health-beneficial components
will be enabled. In order to reach a broad audience, the results
will be shared with the public, included in lectures and published
in scientific peer-reviewed journals.
Weiterführende Informationen
Publikationen
-
André, Amandine; Hecht, Katrin; Mischler, Sandra; Stäheli, Luca; Kerhanaj, Fllanza; Buller, Rebecca; Kinner, Mathias; Freimüller Leischtfeld, Susette; Chetschik, Irene; Miescher Schwenninger, Susanne; Müller, Nadina,
2024.
Food Research International.
186(114364).
Verfügbar unter: https://doi.org/10.1016/j.foodres.2024.114364
-
Mischler, Sandra; André, Amandine; Freimüller Leischtfeld, Susette; Müller, Nadina; Chetschik, Irene; Miescher Schwenninger, Susanne,
2024.
Applied Microbiology.
4(1), S. 96-111.
Verfügbar unter: https://doi.org/10.3390/applmicrobiol4010007
-
André, Amandine; Hecht, Katrin; Mischler, Sandra; Freimüller Leischtfeld, Susette; Kinner, Mathias; Stäheli, Luca; Kerhanaj, Fllanza; Buller, Rebecca; Miescher Schwenninger, Susanne; Chetschik, Irene; Müller, Nadina,
2023.
Eine biologische Strategie zur Reduzierung des Zearalenongehalts in infizierten Weizenkörnern.
In:
9. D-A-CH-Tagung für angewandte Getreidewissenschaften, Detmold, Deutschland, 5.-6. Oktober 2023.
-
Stäheli, Luca; Schwab, Lisa; Kinner, Mathias; Müller, Nadina,
2023.
Design and functionality of a prototype for cold needle perforation of wheat.
Applied Sciences.
13(10), S. 6266.
Verfügbar unter: https://doi.org/10.3390/app13106266
-
Stäheli, Luca; Kinner, Mathias; Müller, Nadina,
2022.
Effectiveness of perforation methods for wheat kernels.
Cereal Technology (Getreidetechnologie).
2022(3), S. 4-15.
-
André, Amandine; Freimüller Leischtfeld, Susette; Mischler, Sandra; Hecht, Katrin; Stäheli, Luca; Rüegg, Ramona; Kinner, Mathias; Buller, Rebecca; Chetschik, Irene; Miescher Schwenninger, Susanne; Müller, Nadina,
2022.
Mycotoxins reduction strategies to reintroduce grain side product streams into the food value chain.
In:
20th ICC Conference, Vienna, Austria, 5-7 July 2022.
-
André, Amandine; Müller, Nadina; Chetschik, Irene,
2022.
Occurrence of zearalenone and enniatin B in Swiss wheat grains and wheat flours.
Applied Sciences.
12(20), S. 10566.
Verfügbar unter: https://doi.org/10.3390/app122010566