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lüll An update on iron physiology Munoz M; Villar I; Garcia-Erce JAWorld J Gastroenterol 2009[Oct]; 15 (37): 4617-26Iron is an essential micronutrient, as it is required for adequate erythropoietic function, oxidative metabolism and cellular immune responses. Although the absorption of dietary iron (1-2 mg/d) is regulated tightly, it is just balanced with losses. Therefore, internal turnover of iron is essential to meet the requirements for erythropoiesis (20-30 mg/d). Increased iron requirements, limited external supply, and increased blood loss may lead to iron deficiency (ID) and iron-deficiency anemia. Hepcidin, which is made primarily in hepatocytes in response to liver iron levels, inflammation, hypoxia and anemia, is the main iron regulatory hormone. Once secreted into the circulation, hepcidin binds ferroportin on enterocytes and macrophages, which triggers its internalization and lysosomal degradation. Thus, in chronic inflammation, the excess of hepcidin decreases iron absorption and prevents iron recycling, which results in hypoferremia and iron-restricted erythropoiesis, despite normal iron stores (functional ID), and anemia of chronic disease (ACD), which can evolve to ACD plus true ID (ACD + ID). In contrast, low hepcidin expression may lead to iron overload, and vice versa. Laboratory tests provide evidence of iron depletion in the body, or reflect iron-deficient red cell production. The appropriate combination of these laboratory tests help to establish a correct diagnosis of ID status and anemia.|Anemia, Iron-Deficiency/diagnosis/metabolism[MESH]|Antimicrobial Cationic Peptides/metabolism[MESH]|Cation Transport Proteins/metabolism[MESH]|Enterocytes/metabolism[MESH]|Erythrocytes/metabolism[MESH]|Erythropoiesis[MESH]|Hepcidins[MESH]|Homeostasis[MESH]|Humans[MESH]|Inflammation/metabolism[MESH]|Iron Deficiencies[MESH]|Iron/blood/*metabolism[MESH]|Macrophages/metabolism[MESH]|Transferrin/metabolism[MESH] |