Albertine Donker

Iron Function and Iron Handling from Fetus to Adult 81 2 a primary reference material, candidate reference method and a commutable secondary reference material. Clin Chem Lab Med. 2018. 45. Kemna EH, Kartikasari AE, van Tits LJ, Pickkers P, Tjalsma H, Swinkels DW. Regulation of hepcidin: insights from biochemical analyses on human serum samples. Blood cells, molecules & diseases. 2008;40(3):339-346. 46. Lasocki S, Baron G, Driss F, et al. Diagnostic accuracy of serum hepcidin for iron deficiency in critically ill patients with anemia. Intensive Care Med. 2010;36(6):1044-1048. 47. Sangkhae V, Nemeth E. To induce or not to induce: the fight over hepcidin regulation. Haematologica. 2019;104(6):1093-1095. 48. Stoffel NU, Lazrak M, Bellitir S, et al. The opposing effects of acute inflammation and iron deficiency anemia on serum hepcidin and iron absorption in young women. Haematologica. 2019;104(6):1143-1149. 49. Jonker FA, Calis JC, Phiri K, et al. Low hepcidin levels in severely anemic malawian children with high incidence of infectious diseases and bone marrow iron deficiency. PloS one. 2013;8(12):e78964. 50. Prentice AM, Bah A, Jallow MW, et al. Respiratory infections drive hepcidin-mediated blockade of iron absorption leading to iron deficiency anemia in African children. Science advances. 2019;5(3):eaav9020. 51. Weiss G, Ganz T, Goodnough LT. Anemia of inflammation. Blood. 2019;133(1):40-50. 52. Hoftiezer L, Hof MHP, Dijs-Elsinga J, Hogeveen M, Hukkelhoven C, van Lingen RA. From population reference to national standard: new and improved birthweight charts. American journal of obstetrics and gynecology. 2019;220(4):383.e381-383.e317. 53. TNO. Factsheet Resultaten Vijfde Landelijke Groeistudie TNO, 10 juni 2010. 54. Veldhuis JD, Roemmich JN, Richmond EJ, et al. Endocrine control of body composition in infancy, childhood, and puberty. Endocrine reviews. 2005;26(1):114-146. 55. Karlberg J. A biologically-oriented mathematical model (ICP) for human growth. Acta paediatrica Scandinavica Supplement. 1989;350:70-94. 56. Karlberg J. On the construction of the infancy- childhood-puberty growth standard. Acta paediatrica Scandinavica Supplement. 1989;356:26-37. 57. Tse WY, Hindmarsh PC, Brook CG. The infancy- childhood-puberty model of growth: clinical aspects. Acta paediatrica Scandinavica Supplement. 1989;356:38-43; discussion 44- 35. 58. Hochberg Z. Evolutionary perspective in child growth. Rambam Maimonides medical journal. 2011;2(3):e0057. 59. Domellof M, Braegger C, Campoy C, et al. Iron requirements of infants and toddlers. Journal of pediatric gastroenterology and nutrition. 2014;58(1):119-129. 60. http://www.who.int/vmnis/anaemia/prevalence/ summary/anaemia_data_status_t2/en/ Accessed 9 October 2019. 61. Vos T, Abajobir AA, Abate KH, et al. Global, regional, and national incidence, prevalence, and years lived with disability for 328 diseases and injuries for 195 countries, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016. The Lancet. 2017;390(10100):1211-1259. 62. Balogh E, Paragh G, Jeney V. Influence of Iron on Bone Homeostasis. Pharmaceuticals (Basel). 2018;11(4). 63. Levine MA. Assessing bone health in children and adolescents. Indian journal of endocrinology and metabolism. 2012;16(Suppl 2):S205-212. 64. Heaney RP, Abrams S, Dawson-Hughes B, et al. Peak bone mass. Osteoporosis international : a journal established as result of cooperation between the European Foundation for Osteoporosis and the National Osteoporosis Foundation of the USA. 2000;11(12):985-1009. 65. Rauner M, Baschant U, Roetto A, et al. Transferrin receptor 2 controls bone mass and pathological bone formation via BMP and Wnt signaling. Nature metabolism. 2019;1(1):111-124.