Albertine Donker

Iron Function and Iron Handling from Fetus to Adult 83 2 86. Iglesias L, Canals J, Arija V. Effects of prenatal iron status on child neurodevelopment and behavior: A systematic review. Critical reviews in food science and nutrition. 2018;58(10):1604- 1614. 87. Wessling-Resnick M. Excess iron: considerations related to development and early growth. The American journal of clinical nutrition. 2017;106(Suppl 6):1600s-1605s. 88. Lozoff B, Beard J, Connor J, Barbara F, Georgieff M, Schallert T. Long-lasting neural and behavioral effects of iron deficiency in infancy. Nutrition reviews. 2006;64(5 Pt 2):S34- 43; discussion S72-91. 89. Nai A, Lidonnici MR, Rausa M, et al. The second transferrin receptor regulates red blood cell production in mice. Blood. 2015;125(7):1170- 1179. 90. Lozoff B, Georgieff MK. Iron deficiency and brain development. Seminars in pediatric neurology. 2006;13(3):158-165. 91. Cusick SE, Georgieff MK, Rao R. Approaches for Reducing the Risk of Early-Life Iron Deficiency-Induced Brain Dysfunction in Children. Nutrients. 2018;10(2). 92. Wang B, Zhan S, Gong T, Lee L. Iron therapy for improving psychomotor development and cognitive function in children under the age of three with iron deficiency anaemia. The Cochrane database of systematic reviews. 2013(6):Cd001444. 93. Pasricha SR, Hayes E, Kalumba K, Biggs BA. Effect of daily iron supplementation on health in children aged 4-23 months: a systematic review and meta-analysis of randomised controlled trials. The Lancet Global health. 2013;1(2):e77-e86. 94. Turker G, Ergen K, Karakoc Y, Arisoy AE, Barutcu UB. Concentrations of toxic metals and trace elements in the meconium of newborns from an industrial city. Biology of the neonate. 2006;89(4):244-250. 95. Gahagan S, Delker E, Blanco E, Burrows R, Lozoff B. Randomized Controlled Trial of Iron-Fortified versus Low-Iron Infant Formula: Developmental Outcomes at 16 Years. The Journal of pediatrics. 2019. 96. Lozoff B, Castillo M, Clark KM, Smith JB. Iron-fortified vs low-iron infant formula: developmental outcome at 10 years. Archives of pediatrics & adolescent medicine. 2012;166(3):208-215. 97. Fomon SJ, Ziegler EE, Serfass RE, Nelson SE, Rogers RR, Frantz JA. Less than 80% of absorbed iron is promptly incorporated into erythrocytes of infants. The Journal of nutrition. 2000;130(1):45-52. 98. Zhang DL, Senecal T, Ghosh MC, Ollivierre- Wilson H, Tu T, Rouault TA. Hepcidin regulates ferroportin expression and intracellular iron homeostasis of erythroblasts. Blood. 2011;118(10):2868-2877. 99. Zhang DL, Ghosh MC, Ollivierre H, Li Y, Rouault TA. Ferroportin deficiency in erythroid cells causes serum iron deficiency and promotes hemolysis due to oxidative stress. Blood. 2018;132(19):2078-2087. 100. Khalil S, Delehanty L, Grado S, et al. Iron modulation of erythropoiesis is associated with Scribble-mediated control of the erythropoietin receptor. The Journal of experimental medicine. 2018;215(2):661-679. 101. Levy JE, Jin O, Fujiwara Y, Kuo F, Andrews NC. Transferrin receptor is necessary for development of erythrocytes and the nervous system. Nature genetics. 1999;21(4):396-399. 102. Dowling DJ, Levy O. Ontogeny of early life immunity. Trends in immunology. 2014;35(7):299-310. 103. Kelly D, Coutts AG. Early nutrition and the development of immune function in the neonate. The Proceedings of the Nutrition Society. 2000;59(2):177-185. 104. Kollmann TR, Kampmann B, Mazmanian SK, Marchant A, Levy O. Protecting the Newborn and Young Infant from Infectious Diseases: Lessons from Immune Ontogeny. Immunity. 2017;46(3):350-363. 105. Olin A, Henckel E, Chen Y, et al. Stereotypic Immune System Development in Newborn Children. Cell. 2018;174(5):1277-1292.e1214. 106. Arrieta MC, Stiemsma LT, Amenyogbe N,