Albertine Donker

General Discussion 331 9 100. Soares MP, Hamza I. Macrophages and Iron Metabolism. Immunity. 2016;44(3):492-504. 101. Armitage AE, Drakesmith H. Genetics. The battle for iron. Science. 2014;346(6215):1299- 1300. 102. Hu X, Cai X, Ma R, Fu W, Zhang C, Du X. Iron-load exacerbates the severity of atherosclerosis via inducing inflammation and enhancing the glycolysis in macrophages. Journal of cellular physiology. 2019. 103. van Swelm RPL, Wetzels JFM, Swinkels DW. The multifaceted role of iron in renal health and disease. Nature reviews Nephrology. 2019. 104. Franca M, Marti-Bonmati L, Porto G, et al. Tissue iron quantification in chronic liver diseases using MRI shows a relationship between iron accumulation in liver, spleen, and bone marrow. Clinical radiology. 2018;73(2):215.e211-215.e219. 105. Brewer CJ, Coates TD, Wood JC. Spleen R2 and R2* in iron-overloaded patients with sickle cell disease and thalassemia major. Journal of magnetic resonance imaging : JMRI. 2009;29(2):357-364. 106. Wood JC. Use of magnetic resonance imaging to monitor iron overload. Hematology/oncology clinics of North America. 2014;28(4):747-764, vii. 107. Cau M, Galanello R, Giagu N, Melis MA. Responsiveness to oral iron and ascorbic acid in a patient with IRIDA. Blood cells, molecules & diseases. 2012;48(2):121-123. 108. Kortman GA, Raffatellu M, Swinkels DW, Tjalsma H. Nutritional iron turned inside out: intestinal stress from a gut microbial perspective. FEMS microbiology reviews. 2014;38(6):1202-1234. 109. Kortman GA, Duilh BE, Maathuis AJH etal. Microbial metabolism shifts towards an adverse profile with supplementary iron in the TIM-2 in vitro model of the human colon. Frontiers in microbiology. 2016;6: 1481. 110. Pisani A, Riccio E, Sabbatini M, Andreucci M, Del Rio A, Visciano B. Effect of oral liposomal iron versus intravenous iron for treatment of iron deficiency anaemia in CKD patients: a randomized trial. Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association. 2015;30(4):645-652. 111. Capra AP, Ferro E, Cannavo L, La Rosa MA, Zirilli G. A child with severe iron-deficiency anemia and a complex TMPRSS6 genotype. Hematology. 2017;22(9):559-564. 112. Hilty FM, Arnold M, Hilbe M, et al. Iron from nanocompounds containing iron and zinc is highly bioavailable in rats without tissue accumulation. Nature nanotechnology. 2010;5(5):374-380. 113. Pereira DI, Mergler BI, Faria N, et al. Caco- 2 cell acquisition of dietary iron(III) invokes a nanoparticulate endocytic pathway. PloS one. 2013;8(11):e81250. 114. Powell JJ, Bruggraber SF, Faria N, et al. A nano-disperse ferritin-core mimetic that efficiently corrects anemia without luminal iron redox activity. Nanomedicine : nanotechnology, biology, and medicine. 2014;10(7):1529-1538. 115.Kortman GAM, Reijnders D, Swinkels DW. Oral iron supplementation: Potential implications for the gut microbiome and metabolome in patients with CKD. Hemodialysis international International Symposium on Home Hemodialysis. 2017;21 Suppl 1:S28-s36. 116. Weiss G, Ganz T, Goodnough LT. Anemia of inflammation. Blood. 2019;133(1):40-50. 117. Katsarou A, Pantopoulos K. Hepcidin Therapeutics. Pharmaceuticals (Basel). 2018;11(4).

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