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IRON DEFICIENCY ANEMIA/ ANEMIA OF CHRONIC DISEASE ANEMIA Definition • Decrease in the number of circulating red blood cells • Most common hematologic disorder by far ANEMIA Causes • Blood loss • Decreased production of red blood cells (Marrow failure) • Increased destruction of red blood cells – Hemolysis • Distinguished by reticulocyte count – Decreased in states of decreased production – Increased in destruction of red blood cells ANEMIA Causes - Decreased Production • Cytoplasmic production of protein – Usually normocytic (MCV 80-100 fl) or microcytic (MCV < 80) • Nuclear division/maturation – Usually macrocytic (MCV > 100 fl) ANEMIA Causes - Cytoplasmic Protein Production • Decreased hemoglobin synthesis – Disorders of globin synthesis – Disorders of heme synthesis • Heme synthesis – Decreased Iron – Iron not in utilizable form – Decreased heme synthesis IRON DEFICIENCY ANEMIA Prevalence Country Men (%) Women (%) Pregnant Women (%) S. India N. India Latin America Israel Poland Sweden USA 6 56 80 38 47 22 4 14 35 64 17 29 1 7 13 IRON • Functions as electron transporter; vital for life • Must be in ferrous (Fe+2) state for activity • In anaerobic conditions, easy to maintain ferrous state • Iron readily donates electrons to oxygen, superoxide radicals, H2O2, OH• radicals • Ferric (Fe+3) ions cannot transport electrons or O2 • Organisms able to limit exposure to iron had major survival advantage IRON Body Compartments - 75 kg man Stores 1000mg Tissue 500 mg Absorption < 1 mg/day 3 mg Red Cells 2300 mg Excretion < 1 mg/day IRON CYCLE MONONUCLEAR PHAGOCYTES Fe Fe Fe Fe Fe Fe Fe Ferritin Fe Fe Transferrin Receptor CIRCULATING RBCs Ferritin FeFe Fe slow Fe Fe RBC PRECURSOR Fe Fe TRANSFERRIN Ferritin Hemosiderin INTRACELLULAR IRON TRANSPORT Fe+2 Transferrin Transferrin receptor H+ Lysosome H+ H+ H+ Fe+2 IRON Causes of Iron Deficiency • Blood Loss – – – – Gastrointestinal Tract Menstrual Blood Loss Urinary Blood Loss (Rare) Blood in Sputum (Rarer) – – – – Pregnancy Infancy Adolescence Polycythemia Vera • Increased Iron Utilization • Malabsorption – Tropical Sprue – Gastrectomy – Chronic atrophic gastritis • Dietary inadequacy (almost never sole cause) • Combinations of above DAILY IRON REQUIREMENTS Pregnancies Males Females Age norI debrosbA tnemeriuqeR )yad/gm( 55 65 49 40 29 32 34 27 20 0 2 10 14 0 0.25 0.5 0.75 1 1.25 1.5 1.75 2 2.25 2.5 IRON ABSORPTION Iron Absorbed Solubilized Iron Iron in Diet 0 2 )yad/gm( no rI 4 6 8 10 12 14 16 Iron Uptake GI ABSORPTION OF IRON Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe Fe TRANSFERRIN Fe Fe Ferritin FERRITIN REGULATION IRE Ferritin HIGH IRON Fe Fe IRE Binding Protein Fe Fe + Fe Fe Fe IRE LOW IRON Fe Ribosome Fe Ferritin Message Fe Fe IRE Binding Protein TRANSFERRIN REGULATION IRE Transferrin LOW IRON Fe Fe IRE Binding Protein Fe Fe + Fe Fe Fe IRE HIGH IRON Fe Fe Ribosome Fe Transferrin Message Fe Fe IRE Binding Protein IRON ABSORPTION Iron Given (mg) 0.1 8 20 100 debrosbA norI )gm( 0.01 0.1 1 10 100 Iron Absorption Iron Absorbed (mg) IRON DEFICIENCY ANEMIA Progression of Findings • • • • • • Stainable Iron, Bone Marrow Aspirate Serum Ferritin - Low in Iron Deficiency Desaturation of transferrin Serum Iron drops Transferrin (Iron Binding Capacity) Increases Blood Smear - Microcytic, Hypochromic; Aniso- & Poikilocytosis • Anemia IRON STORES Iron Deficiency Anemia Stores 0 mg Tissue 500 mg Absorption 2-10 mg/day 3 mg Red Cells 1500 mg Excretion Dependent on Cause IRON DEFICIENCY Symptoms • Fatigue - Sometimes out of proportion to anemia • Atrophic glossitis • Pica • Koilonychia (Nail spooning) • Esophageal Web IRON Causes of Iron Deficiency • Blood Loss – – – – Gastrointestinal Tract Menstrual Blood Loss Urinary Blood Loss (Rare) Blood in Sputum (Rarer) – – – – Pregnancy Infancy Adolescence Polycythemia Vera • Increased Iron Utilization • Malabsorption – Tropical Sprue – Gastrectomy – Chronic atrophic gastritis • Dietary inadequacy (almost never sole cause) • Combinations of above IRON REPLACEMENT THERAPY Response • Usually oral; usually 300-900 mg/day • Requires acid environment for absorption • Poorly absorbed IRON THERAPY Response • • • • Initial response takes 7-14 days Modest reticulocytosis (7-10%) Correction of anemia requires 2-3 months 6 months of therapy beyond correction of anemia needed to replete stores, assuming no further loss of blood/iron • Parenteral iron possible, but problematic ANEMIA OF CHRONIC DISEASE Findings • Mild, non-progressive anemia (Hgb c. 10, Hct c. 30% • Other counts normal • Normochromic/normocytic (30% hypochromic/microcytic) • Mild aniso- & poikilocytosis • Somewhat shortened RBC survival • Normal reticulocyte count (Inappropriately low for anemia) • Normal bilirubin • EPO levels increased but blunted ANEMIA OF CHRONIC DISEASE Causes • Thyroid disease • Collagen Vascular Disease – – – – Rheumatoid Arthritis Systemic Lupus Erythematosus Polymyositis Polyarteritis Nodosa • Inflammatory Bowel Disease – Ulcerative Colitis – Crohn’s Disease • Malignancy • Chronic Infectious Diseases – Osteomyelitis – Tuberculosis • Familial Mediterranean Fever • Renal Failure IRON STORES Anemia of Chronic Disease Stores 2500 mg Absorption < 1 mg/day Tissue 500 mg 1 mg Red Cells 1100 mg Excretion < 1 mg/day IRON CYCLE Anemia of Chronic Disease Transferrin Receptor CIRCULATING RBCs MONONUCLEAR PHAGOCYTES Fe Fe Fe Fe Fe Ferritin Fe FeFe Fe Ferritin Ferritin Fe slow Hemosiderin RBC PRECURSOR Fe Fe IL-1/TNF TRANSFERRIN IRON DEFICIENCY versus ACD Serum Iron Iron Deficiency ACD Transferrin Ferritin SUMMARY Iron-Related Anemias • • • • Most common anemia Symptom of pathologic process Primary manifestation is hematologic Treatment requires: – Replacement therapy – Correction of underlying cause (if possible)
