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Fate and Bioaccessibility of Iodine in Food Prepared from Agronomically Biofortified Wheat and Rice and Impact of Cofertilization with Zinc and Selenium.

Ismail CakmakMassimo MarzoratiPieter Van den AbbeeleKatja HoraHarmen Tjalling HolwerdaMustafa Atilla YaziciErdinc SavasliJoachim NeriGijs Du Laing
Published in: Journal of agricultural and food chemistry (2020)
Enrichment of food crops with iodine is an option to alleviate dietary deficiencies. Therefore, foliar iodine fertilizer was applied on wheat and rice, in the presence and absence of the other micronutrients zinc and selenium. This treatment increased the concentration of iodine, as well as zinc and selenium, in the staple grains. Subsequently, potential iodine losses during preparation of foodstuffs with the enriched grains were studied. Oven-heating did not affect the iodine content in bread. Extraction of bran from flour lowered the iodine in white bread compared to wholegrain bread, but it was still markedly higher compared to the control. During subsequent in vitro gastrointestinal digestion, a higher percentage of iodine was released from foods based on extracted flour (82-92%) compared to wholegrain foods (50-76%). The foliar fertilization of wheat was found to be adequate to alleviate iodine deficiency in a population with a moderate to high intake of bread.
Keyphrases
  • dual energy
  • computed tomography
  • magnetic resonance imaging
  • mass spectrometry
  • risk assessment
  • body mass index
  • health risk assessment