Efficacy of Aflatoxin B1 and Fumonisin B1 Adsorption by Maize, Wheat, and Oat Bran

Author:

Lee Youngsun1ORCID,Lemmetty Jenna M.1ORCID,Nihtilä Hanna1ORCID,Koivula Hanna1ORCID,Samandoulougou Serge2ORCID,Sawadogo-Lingani Hagretou2,Katina Kati1,Maina Ndegwa H.1

Affiliation:

1. Department of Food and Nutrition, University of Helsinki, 00014 Helsinki, Finland

2. Institut de Recherche en Sciences Appliquées et Technologies/Département Technologie Alimentaire (IRSAT/DTA), Ouagadougou BP 7047, Burkina Faso

Abstract

Mycotoxins, especially aflatoxin B1 (AFB1) and fumonisin B1 (FMB1), are common contaminants in cereal-based foods. Instances of contamination are predicted to increase due to the current challenges induced by climate change. Despite the health benefits of whole grains, the presence of mycotoxins in bran remains a concern. Nonetheless, previous research indicates that wheat bran can adsorb mutagens. Therefore, this study investigated the capacity of maize, wheat, and oat brans to adsorb AFB1 and FMB1 under varying in vitro conditions, including pH, binding time, temperature, particle size, and the amount of bran utilized. Maize bran demonstrated a high AFB1 adsorption capacity (>78%) compared to wheat and oat brans. However, FMB1 was not adsorbed by the brans, possibly due to its hydrophilic nature. Lower temperature (≤25 °C) enhanced AFB1 adsorption efficacy in wheat and oat bran, while for maize bran, the highest adsorption occurred at 37 °C. A linear model following Henry’s law best explained AFB1 adsorption by the brans. Further studies identified the pericarp layer of bran as the primary site of AFB1 adsorption, with the initial liquid volume being a critical factor. The study concludes that bran could potentially act as an effective bioadsorbent. Further research is essential to confirm the adsorption efficacy and the bioavailability of AFB1 through in vivo experiments.

Publisher

MDPI AG

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