Litcius/Paper detail

Oat protein nanofibril–iron hybrids offer a stable, high-absorption iron delivery platform for iron fortification

Jiangtao Zhou, Sueppong Gowachirapant, Christophe Zeder, Alexander Wieczorek, Jeannette Nuessli Guth, Ines Kutzli, Sebastian Siol, Ferdinand von Meyenn, Michael B. Zimmermann, Raffaele Mezzenga

2025Nature Food21 citationsDOIOpen Access PDF

Abstract

Iron deficiency and anaemia affect two billion people globally. Iron fortification can help to treat anaemia, but most current fortificants are limited by low absorption and/or poor sensory properties. Here we introduce oat protein nanofibrils (OatNF) carrying ultrasmall iron nanoparticles that are engineered to carry iron in ferrous or ferric form. In a prospective cross-over stable-isotope absorption trial in young iron-deficient women (n = 52), OatNF reduced with sodium ascorbate carried mainly ferrous iron and showed high fractional absorption with water and with polyphenol-rich food, showing 1.76- and 1.65-fold higher absorption, respectively, compared with ferrous sulfate. When sodium hydroxide was used as the reducing agent, OatNF carried mainly ferric iron, which was also well absorbed and featured good sensory properties in reactive food matrices. OatNF hybrids offer a plant-based strategy for delivering highly bioavailable iron for food fortification.

Topics & Concepts

FerrousFood fortificationFood scienceChemistryFortificationFerricBioavailabilityIron deficiencyIron supplementAbsorption (acoustics)SodiumPhytic acidSodium hydroxideAbsorption of waterFERRIC IRONBiochemistryFood productsFerritinIron Metabolism and DisordersPlant Micronutrient Interactions and EffectsHemoglobinopathies and Related Disorders