teferrol and Iron-Overload

iron is known to play a role in the susceptibility to and outcome of several infections. In view of the increasing worldwide problem of tuberculosis, it may be important to ascertain whether this is also the case with this infection.. (1) to review studies conducted in vitro, in experimental animals, and in humans that provide evidence that iron status may influence the occurrence and outcome of tuberculosis. (2) To perform an in vivo study in mice, examining the effect of iron loading on experimental infection caused by a virulent strain of Mycobacterium tuberculosis.. we studied the effect of iron loading on the growth in spleen and lungs of a virulent strain of M. tuberculosis, injected i.v. in female Balb/C mice. At sacrifice on day 42 after the experimental infection, the iron-loaded mice presented a significantly enhanced multiplication of M. tuberculosis in both the spleen and the lungs, when compared to the mice without iron loading.. Most of the studies, including our experimental study in mice, tend to suggest that an excess of iron may enhance the growth of M. tuberculosis and worsen the outcome of human tuberculosis.

Topics: Animals; Disease Susceptibility; Female; Ferric Compounds; Haptoglobins; HIV Infections; Humans; Iron; Iron Overload; Lung; Macrophages; Mice; Mice, Inbred BALB C; Mycobacterium tuberculosis; Polysaccharides; Spleen; Tuberculosis

Absolute and functional iron deficiency is the most common cause of epoetin (recombinant human erythropoietin) hyporesponsiveness in renal failure patients. Diagnostic procedures for determining iron deficiency include measurement of serum iron levels, serum ferritin levels, saturation of transferrin and percentage of hypochromic red blood cells. Patients with iron deficiency should receive supplemental iron, either orally or intravenously. Adequate intravenous iron supplementation allows reduction of epoetin dosage by approximately 40%. Intravenous iron supplementation is recommended for all patients undergoing haemodialysis and for pre-dialysis and peritoneal dialysis patients with severe iron deficiency. During the maintenance phase (period of epoetin therapy after correction of iron deficiency), the use of low-dose intravenous iron supplementation (10 to 20 mg per haemodialysis treatment or 100 mg every second week) avoids iron overtreatment and minimises potential adverse effects. Depending on the degree of pre-existing iron deficiency, markedly higher iron doses are necessary during the correction phase (period of epoetin therapy after correction of iron deficiency) [e.g. intravenous iron 40 to 100 mg per haemodialysis session up to a total dose of 1000 mg]. The iron status should be monitored monthly during the correction phase and every 3 months during the maintenance phase to avoid overtreatment with intravenous iron.

Topics: Anemia, Iron-Deficiency; Citric Acid; Drug Combinations; Drug Monitoring; Erythropoietin; Ferric Compounds; Ferric Oxide, Saccharated; Ferrous Compounds; Glucaric Acid; Humans; Infusions, Intravenous; Injections, Intravenous; Iron Compounds; Iron Overload; Iron-Dextran Complex; Kidney Failure, Chronic; Sorbitol