References
- Abizari AR, Moretti D, Schuth S, Zimmermann MB, Armar-Klemesu M, Brouwer ID. 2012. Phytic acid-to-iron molar ratio rather than polyphenol concentration determines iron bioavailability in whole-cowpea meal among young women. J Nutr 142:1950--1955
- Beard J, Stoltzfus RJ. 2001. Iron-deficiency anemia: reexamining the nature and magnitude of the public health problem. J Nutr 131:563S–703S
- Bermejo P, Peňa ME, Domínguez R, Bermejo A, Cocho JA, Fraga JM. 2002. Iron and zinc in hydrolysed fractions of human milk and infant formulas using an in vitro method. Food Chem 77:361–369
- Cook JD, Dassenko SS, Whittaker P. 1991a. Calcium supplementation: effect on iron absorption. Am J Clin Nutr 53:106–111
- De Souza C, Colli C, Silverio OM. 2005. Infant formula iron dialysability related to other nutrients. Food Chem 90:779–783
- Denise JC, Jane EV. 2002. Iron release from spinach: effects of treatment on levels of iron (II) and iron (III) released in vitro. Food Chem 76:117–123
- Fairweather-Tait S, Phillips I, Wortley G, Harvey L, Glahn RP. 2007. The use of solubility, dialyzability, and Caco-2 cell methods to predict iron bioavailability. Int J Vit Nutr Res 77:158–165
- Glahn RP, Cheng ZQ, Welch RM. 2002. Comparison of iron bioavailability from 15 rice genotypes: studies using an in vitro digestion/Caco-2 cell culture model. J Agric Food Chem 50:3586–3591
- Glahn RP, Lee OA, Yeung A, Goldman MI, Miller DD. 1998. Caco-2 cell ferritin formation predicts nonradiolabeled food iron availability in an in vitro digestion/Caco-2 cell culture model. J Nutr 128:1555–1561
- Glahn RP, Lee OA, Miller DD. 1999. In vitro digestion/Caco-2 cell culture model to determine optimal ascorbic acid to Fe ratio in rice cereal. J Food Sci 64:925–928
- Glahn RP, Wien EM, Van Campen DR, Miller DD. 1996. Caco-2 cell iron uptake from meat and casein digests parallels in vivo studies: use of a novel in vitro method for rapid estimation of iron bioavailability. J Nutr 126:332–339
- Glahn RP, Wortley GM. 2002. Inhibition of iron uptake by phytic acid, tannic acid, and ZnCl2: studies using an in vitro digestion/caco-2 cell model. J Agric Food Chem 50:390–395
- Hallberg L, Rossander L, Skanberg A. 1987. Phytate and the inhibitory effect of bran on iron absorption in man. Am J Clin Nutr 45:988–996
- He WL, Feng Y, Li XL, Yang XE. 2008. Comparison of iron uptake from reduced iron powder and FeSO4 using Caco-2 cells model: effects of ascorbic acid, phytic acid and pH. J Agric Food Chem 56:2637–2642
- Hemalatha S, Patel K, Srinivasan K. 2007. Zinc and iron contents and their bioaccessibility in cereals and pulses consumed in India. Food Chem 102:1328–1336
- Hurrell RF. 1997. Preventing iron deficiency through food fortification. Nutr Rev 55:210–222
- Jackson MI. 1997. The assessment of bioavailability of micronutrients: introduction. Europ J Clin Nutr 51:1–2
- Karunaratne AM, Amerasinghe PH, Sadagopa Ramanujam VM, Sandstead HH, Perera PAJ. 2008. Zinc, iron and phytic acid levels of some popular foods consumed by rural children in Sri Lanka. J Food Comp Anal 21:481–488
- Kim EY, Ham SK, Bradke D, Ma QY, Han O. 2011. Ascorbic acid offsets the inhibitory effect of bioactive dietary polyphenolic compounds on transepithelial iron transport in Caco-2 intestinal cells. J Nutr 141:828–834
- Lei J, Zhang MQ, Huang CY, Bai L, He ZH. 2008. Effects of ascorbic acid and citric acid on iron bioavailability in an in vitro digestion/Caco-2 cell culture model. J South Med Univ 28:1743–1747
- Liu ZH, Cheng FM, Zhang GP. 2005b. Grain phytic acid content in japonica rice as affected by cultivar and environment and its relation to protein content. Food Chem 89:49–52
- Lucca P, Hurrell R, Potrykus I. 2002. Fighting iron deficiency anemia with iron-rich rice. J Am Coll Nutr 21:184S–190S
- Lung'aho MG, Mwaniki AM, Szalma SJ, Hart JJ, Rutzke MA, Kochian LV, Glahn RP, Hoekenga OA. 2011. Genetic and physiological analysis of iron biofortification in maize kernels. PLos One 66:e20429
- Luo YW, Gu ZX, Han YB, Chen ZG. 2009. The impact of processing on phytic acid, in vitro soluble iron and phy/Fe molar ratio of faba bean Vicia faba L.. J Sci Food Agric 89:861–866
- MacCallum A, Hardy SP, Everest PH. 2005. Campylobacter jejuni inhibits the absorptive transport functions of Caco-2 cells and disrupts cellular tight junctions. Microbiology 151:2451–2458
- Miller GA, Youngs VL, Oplinger ES. 1980. Environmental and cultivar effects on oat phytic acid concentration. Cereal Chem 57:189–191
- Morgan EH, Oates PS. 2002. Mechanisms and regulation of intestinal iron absorption. Blood Cell Mol Dis 29:384–399.2
- Motulsky H. 1995. Comparing three or more means: analysis of variance. In Motulsky H, editor. Intuitive biostatistics. 1st ed. NY: Oxford University Press Inc. p. 155–261
- Péneau S, Dauchet L, Vergnaud AC, Estaquio C, Kesse-Guyot E, Bertrais S, Latino-Martel P, et al. 2008. Relationship between iron status and dietary fruit and vegetables based on their vitamin C and fiber content. Am J Clin Nutr 87:1298–1305
- Prom-u-thai C, Huang LB, Glahn RP, Welch RM. 2006. Iron Fe bioavailability and the distribution of anti-Fe nutrition biochemicals in the unpolished, polished grain and bran fraction of five rice genotypes. J Sci Food Agric 86:1209–1215
- Salovaara S, Sandberg AS, Andlid T. 2002. Organic acids influence iron uptake in the human epithelial cell line Caco-2. J Agric Food Chem 50:6233–6238
- Salunke R, Neelam K, Rawat N, Tiwari VK, Dhaliwal HS, Roy P. 2011. Bioavailability of iron from wheat aegilops derivatives selected for high grain iron and protein contents. J Agric Food Chem 59:7465–7473
- Sedef NEI, Sibel K, Sebnem S. 2010. Effect of phytic acid on iron bioavailability in fortified infant cereals. J Nutr Food Sci 40:485–493
- Taylor PG, Mendez CH, Martinez TC, Jaffe W, Lopez de BM, Landaeta JM, Leets I, et al. 1995. Iron bioavailability from diets consumed by different socioeconomic strata of the Venezuela population. J Nutr 125:1860–1868
- Taylor PG, Martinez Torres C, Romano EL, Layrisse M. 1986. The effect of cysteine-containing peptides released during meat digestion on iron absorption in humans. Am J Clin Nutr 43:68–71
- Wei Y, Shohag MJ, Wang Y, Lu L, Wu C, Yang X. 2012. Effect of zinc sulfate fortification in germinated brown rice on seed zinc concentration, bioavailability and seed germination. J Agric Food Chem 60:1871–1879
- Welch RM, Graham RD. 1999. A new paradigm for world agriculture: Meeting human needs. Productive, sustainable, nutritious. Field Crop Res 60:1–10
- Wood RJ, Tamura T. 2001. Methodological issues in assessing bioavialability of nutrients and other bioactive substances in dietary supplements: summary of workshop discussion. J Nutr 131:1396S–1398S
- Wu JG, Shi CH. 2007. Calibration model optimization for rice cooking characteristics by near infrared reflectance spectroscopy NIRS. Food Chem 103:1054–1061
- Yang XE, Chen WR, Feng Y. 2007. Improving human micronutrient nutrition through biofortification in the soil-plant system: China as a case study. Environ Geochem Hlth 29:413–428
- Yang XE, Ye ZQ, Shi CH, Graham R. 1998. Genotypic differences in concentration of iron, manganese, copper and zinc in rice grain. J Plant Nutr 21:1453–1462
- Yun S, Habicht JP, Miller DD, Glahn RP. 2004. An in vitro digestion/Caco-2 cell culture system accurately predicts the effects of ascorbic acid and polyphenolic compounds on iron bioavailability in humans. J Nutr 134:2717–2721
- Zhai CK, Lu CM, Zhang XQ, Sun GJ, Lorenz KJ. 2001. Comparative study on nutritional value of Chinese and North American wild rice. J Food Comp Anal 14:371–382
- Zhang J, Wang MY, Wu LH, Wu JG, Shi CH. 2008. Impacts of combination of foliar iron and boron application on iron biofortification and nutritional quality of rice grain. J Plant Nutr 31:1599–1611