Literature DB >> 20418865

Iron from nanocompounds containing iron and zinc is highly bioavailable in rats without tissue accumulation.

Florentine M Hilty1, Myrtha Arnold, Monika Hilbe, Alexandra Teleki, Jesper T N Knijnenburg, Felix Ehrensperger, Richard F Hurrell, Sotiris E Pratsinis, Wolfgang Langhans, Michael B Zimmermann.   

Abstract

Effective iron fortification of foods is difficult, because water-soluble compounds that are well absorbed, such as ferrous sulphate (FeSO(4)), often cause unacceptable changes in the colour or taste of foods. Poorly water-soluble compounds, on the other hand, cause fewer sensory changes, but are not well absorbed. Here, we show that poorly water-soluble nanosized Fe and Fe/Zn compounds (specific surface area approximately 190 m(2) g(-1)) made by scalable flame aerosol technology have in vivo iron bioavailability in rats comparable to FeSO(4) and cause less colour change in reactive food matrices than conventional iron fortificants. The addition of Zn to FePO(4) and Mg to Fe/Zn oxide increases Fe absorption from the compounds, and doping with Mg also improves their colour. After feeding rats with nanostructured iron-containing compounds, no stainable Fe was detected in their gut wall, gut-associated lymphatics or other tissues, suggesting no adverse effects. Nanosizing of poorly water-soluble Fe compounds sharply increases their absorption and nutritional value.

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Year:  2010        PMID: 20418865     DOI: 10.1038/nnano.2010.79

Source DB:  PubMed          Journal:  Nat Nanotechnol        ISSN: 1748-3387            Impact factor:   39.213


  30 in total

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Journal:  Adv Drug Deliv Rev       Date:  2001-08-23       Impact factor: 15.470

Review 2.  How to ensure adequate iron absorption from iron-fortified food.

Authors:  Richard Hurrell
Journal:  Nutr Rev       Date:  2002-07       Impact factor: 7.110

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Journal:  Nat Genet       Date:  1997-08       Impact factor: 38.330

7.  Zinc absorption in adult humans: the effect of iron fortification.

Authors:  L Davidsson; A Almgren; B Sandström; R F Hurrell
Journal:  Br J Nutr       Date:  1995-09       Impact factor: 3.718

8.  A comparison of physical properties, screening procedures and a human efficacy trial for predicting the bioavailability of commercial elemental iron powders used for food fortification.

Authors:  Sean R Lynch; Thomas Bothwell
Journal:  Int J Vitam Nutr Res       Date:  2007-03       Impact factor: 1.784

9.  Copper oxide nanoparticles are highly toxic: a comparison between metal oxide nanoparticles and carbon nanotubes.

Authors:  Hanna L Karlsson; Pontus Cronholm; Johanna Gustafsson; Lennart Möller
Journal:  Chem Res Toxicol       Date:  2008-08-19       Impact factor: 3.739

Review 10.  Nutritional iron deficiency.

Authors:  Michael B Zimmermann; Richard F Hurrell
Journal:  Lancet       Date:  2007-08-11       Impact factor: 79.321
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  38 in total

1.  Food nanotechnology: New leverage against iron deficiency.

Authors:  Dennis D Miller
Journal:  Nat Nanotechnol       Date:  2010-04-25       Impact factor: 39.213

2.  Engineering safer-by-design, transparent, silica-coated ZnO nanorods with reduced DNA damage potential.

Authors:  Georgios A Sotiriou; Christa Watson; Kimberly M Murdaugh; Thomas H Darrah; Georgios Pyrgiotakis; Alison Elder; Joseph D Brain; Philip Demokritou
Journal:  Environ Sci Nano       Date:  2014-04

3.  Medium-chain fatty acid nanoliposomes suppress body fat accumulation in mice.

Authors:  Wei-Lin Liu; Wei Liu; Cheng-Mei Liu; Shui-Bing Yang; Jian-Hua Liu; Hui-Juan Zheng; Kun-Ming Su
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4.  Iron depletion and repletion with ferrous sulfate or electrolytic iron modifies the composition and metabolic activity of the gut microbiota in rats.

Authors:  Alexandra Dostal; Christophe Chassard; Florentine M Hilty; Michael B Zimmermann; Tanja Jaeggi; Samuela Rossi; Christophe Lacroix
Journal:  J Nutr       Date:  2011-12-21       Impact factor: 4.798

Review 5.  Biomarkers of Nutrition for Development (BOND)-Iron Review.

Authors:  Sean Lynch; Christine M Pfeiffer; Michael K Georgieff; Gary Brittenham; Susan Fairweather-Tait; Richard F Hurrell; Harry J McArdle; Daniel J Raiten
Journal:  J Nutr       Date:  2018-06-01       Impact factor: 4.798

6.  Preparation and Evaluation of PLGA-Coated Capsaicin Magnetic Nanoparticles.

Authors:  Mrudhula Baskaran; Padmamalini Baskaran; Navamoney Arulsamy; Baskaran Thyagarajan
Journal:  Pharm Res       Date:  2017-03-21       Impact factor: 4.200

7.  Amyloid fibril systems reduce, stabilize and deliver bioavailable nanosized iron.

Authors:  Yi Shen; Lidija Posavec; Sreenath Bolisetty; Florentine M Hilty; Gustav Nyström; Joachim Kohlbrecher; Monika Hilbe; Antonella Rossi; Jeannine Baumgartner; Michael B Zimmermann; Raffaele Mezzenga
Journal:  Nat Nanotechnol       Date:  2017-04-24       Impact factor: 39.213

8.  Low iron availability in continuous in vitro colonic fermentations induces strong dysbiosis of the child gut microbial consortium and a decrease in main metabolites.

Authors:  Alexandra Dostal; Sophie Fehlbaum; Christophe Chassard; Michael B Zimmermann; Christophe Lacroix
Journal:  FEMS Microbiol Ecol       Date:  2012-08-28       Impact factor: 4.194

Review 9.  Modern iron replacement therapy: clinical and pathophysiological insights.

Authors:  Domenico Girelli; Sara Ugolini; Fabiana Busti; Giacomo Marchi; Annalisa Castagna
Journal:  Int J Hematol       Date:  2017-12-01       Impact factor: 2.490

10.  Intestinal microbiome of broiler chickens after use of nanoparticles and metal salts.

Authors:  Еlena Yausheva; Sergey Miroshnikov; Еlena Sizova
Journal:  Environ Sci Pollut Res Int       Date:  2018-04-24       Impact factor: 4.223
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