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Iron metabolism
- 2. DISTRIBUTION OF IRON • Total body iron content is 3 to 5 gm, 75% of which is present in blood. The rest is in liver, bone marrow and muscles. • 75% of the blood iron is hemoglobin, 5% myoglobin and 15% ferritin.
- 3. REQUIREMENT OF IRON • Daily requirement for an adult Indian is 20mg of iron out of which 1-2mg is absorbed. • Children between 13-15 years need 20-30 mg/day. • Pregnant women need 40 mg/day. Transfer of iron and calcium from mother to fetus occurs mainly during last trimester of pregnancy.
- 4. • During first three months of life, iron intake is negligible and during this time child is dependent on iron reserve. • Premature babies are at risk of iron deficiency anemia. • After 3 months of life, diet supplementation with cereals essential for supplying iron requirement.
- 5. SOURCES OF IRON • Leafy vegetables • Pulses • Cereals • Liver • Meat • Jaggery
- 6. FACTORS AFFECTING ABSORPTION OF IRON • Reduced form of iron • Ascorbic acid – Helps to reduce ferric ions • Interfering substances – Phytic acid(in cereals) and Oxalic acid(in leafy vegetables) forms insoluble salts. • Other minerals like calcium, copper, lead and phosphates will inhibit iron absorption.
- 7. MUCOSAL BLOCK THEORY • Duodenum and jejunum are sites of absorption. • Iron metabolism is maintained by regulation at level of absorption and not by excretion. – One Way Element • When iron stores in body are depleted absorption is enhanced. Reverse when adequate quantity is present.
- 8. ABSORPTION Fe 2+ Divalent metal transporter Fe 2+ Fe 3+ Ferritin Fe 2+ crosses membrane Fe 3+ transferrin in blood stream
- 9. REGULATION OF ABSORPTION • Mucosal Regulation • Stores Regulation • Erythropoietic regulation – erythroid cells signal mucosa to increase absorption
- 10. IRON TRANSPORT • Transport form of iron is transferrin, a beta glubulin. Normal plasma level – 250mg/100ml. Increased in iron deficiency. • Total Iron Binding Capacity in plasma is 400mg/100ml, this is provided by transferrin. • One third of this capacity is saturated with iron, this protein bound iron(serum iron) is about 120mg/dL. • Ceruloplasmin is the ferroxidase which oxidises ferrous to ferric state.
- 11. • Transferrin receptors are present on most body cells, especially on cells which synthesize heme. • Iron transferrin complex taken up by body cells by receptor mechanism. The receptor binds 2 molecules of transferrin and is internalized. Iron is taken up by the cells and the receptor molecules are externalized. • Reticulocyte can internalize 1 million atoms of iron per minute.
- 12. STORAGE OF IRON • The storage form of iron is ferritin. • Its seen in intestinal mucosal cells, liver, spleen and bone marrow. • Apoferritin can take up to 4000 atoms of iron per molecule.
- 13. IRON IS CONSERVED • When RBC is lysed Hb is released into circulation. Being low molecular weight, Hb will be lost through urine. • To prevent this Hb is immediately taken up by haptoglobin an alpha globulin • Haptoglobin is an acute phase protein and its level is increased in inflammation • Globin part is removed from Hb, and the heme is released into circulation.
- 14. • In order to prevent excretion of haeme through urine, heme is bound with hemopexin. • Hemopexin is a beta globulin whose levels are enhanced during increased haemolysis. • Heme-hemopexin complex is taken up by hepatocytes. • The porphyrin is removed and the free iron is either stored or utilized.
- 15. EXCRETION • Iron is a one way element. Regulation of homeostasis is done at level of absorption. • Almost no iron is excreted through urine. Feces contains unabsorbed iron as well iron trapped in intestinal cells that are desquamated. • 30% of intestinal lining cells are replaced every day hence this loss is considerable. • All cells in skin contain iron. Hence iron is lost by shedding of upper layers of skin.
- 16. HEMOGLOBIN • It’s the chief respiratory pigment in humans. Each Hb molecule consists of 4 heme residues located in globin chains. • Iron present in Fe 2+ state • Normal Values: • Male : 13 – 18 g/dL • Female : 11.5 – 16.5 g/dL