UMLS:C0240066 - FACTA Search

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Query: UMLS:C0240066 (iron deficiency)
7,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inflammatory low iron is the second cause, after true iron deficiency, of acquired anaemia. It is mainly due to insufficient erythropoiesis resulting from inhibition of the erythroid progenitor and to disturbances in the synthesis and action of erythropoietin. These changes seem to be dependent on factors, such as TNF-alpha, interleukin-1 and interferon-gamma, which are released in inflammatory processes. Alterations in iron metabolism seem to be secondary, but also partly provoked by the same inhibitory agents. All these anaemias share a common character, i.e. lowering of serum iron level without increase of transferrin level, while plasma ferritin level is within normal limits. In addition to symptomatic therapy by red cell transfusions, numerous trials have shown that recombinant erythropoietin is effective in the treatment of the anaemia that accompanies cancers, chronic inflammatory and rheumatic diseases and of the anaemia provoked by HIV infection.
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PMID:[Inflammatory hyposideremic anemia]. 823 81

Worldwide, over 40% of children have iron deficiency anaemia, frequently associated with infections. Certain cytokines are involved in both immune activation/response to infection and iron transport/metabolism. We therefore assessed the relations among iron deficiency, cytokine production and lymphocyte activation markers in 142 hospitalized Malawian children. We examined peripheral blood lymphocyte antigens/cytokine production using four- colour flow cytometry and serum transferrin receptor (TfR) levels, an inverse measure of iron status unaffected by acute illness or infection, with an enzyme-linked immunosorbent assay. Wilcoxon rank sum tests and logistic regression analyses (LRA) were performed. Iron deficiency (TfR > or = 10 microg/ml) versus TfR < 10 microg/ml, was associated with higher percentages of lymphocytes producing: (a) induced or spontaneous IL-6 (medians: induced, 15.9% for iron-deficient children versus 8.8% for iron-replete children, P = 0.002; spontaneous, 24.4% versus 13.0%, P < 0.001) and (b) induced IFN-gamma (medians:18.4% versus 12.4%, P = 0.006). The percentages of CD8(+) T cells spontaneously producing IL-6 and of all lymphocytes producing induced TNF-alpha and IFN-gamma in the same cell had the strongest relationships to iron deficiency (b = + 0.0211, P = 0.005 and b = + 0.1158, P = 0.012, respectively, LRA) and were also positively related to the co-expression of the T cell activation markers HLA DR and CD38. Severe iron deficiency (TfR > or = 30 microg/ml) was associated with the percentage of lymphocytes producing induced IL-4 (medians: 0.5% versus 1.6%, P < 0.010). The cytokine patterns associated with iron deficiency in our study would preserve iron stores but also preferentially retain the activation capabilities of T cells, albeit not necessarily other immune cells, until a critical level of iron depletion is reached.
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PMID:The effects of iron deficiency on lymphocyte cytokine production and activation: preservation of hepatic iron but not at all cost. 1173 64

Resistance to recombinant human erythropoietin occurs in a small but important proportion of hemodialysis patients. This may be due to increased immune activation because pro-inflammatory cytokines inhibit erythropoiesis in vitro. Using FACScan flow cytometry, the proportion of PMA/ionomycin-stimulated T cells expressing cytokines ex vivo was compared in 18 poor responders to erythropoietin, 14 good responders to erythropoietin, and 14 normal controls. CD4(+) T cells from poor responders expressed more interferon-gamma (IFN-gamma; 19 +/- 6%) compared with good responders (11 +/- 6%, P < 0.001) and controls (12 +/- 6%, P < 0.01). Similarly, CD4+ T cells from poor responders expressed more tumor necrosis factor-alpha (TNF-alpha; poor responders: 51 +/- 19% versus good responders: 27 +/- 15% [P < 0.01] and controls: 30 +/- 19% [P < 0.01]). CD4+ expression of IL-10 was also enhanced (poor responders: 1.6 +/- 1.1% versus good responders: 0.7 +/- 0.6% [P < 0.05] and controls: 0.5 +/- 0.2% [P < 0.01]). Likewise, CD4+ expression of interleukin-13 (IL-13) was increased (poor responders: 4.4 +/- 4.2% versus good responders: 1.6 +/- 1.7% [P < 0.05] and controls: 1.6 +/- 1.5% [P < 0.05]). CD8+ T cells from poor responders also showed enhanced expression of cytokines. For IFN-gamma, poor responder expression was 48 +/- 20% compared with 31 +/- 17% (P < 0.05) for good responders and 23 +/- 15% (P < 0.01) for controls. TNF-alpha expression for poor responders was 41 +/- 21% versus 25 +/- 14% for good responders (P < 0.05) and 21 +/- 15% for controls (P < 0.01). IL-10 expression for poor responders was 2.0 +/- 1.2% (good responders: 0.7 +/- 0.6% [P < 0.01]; controls: 0.5 +/- 0.2% [P < 0.001]). These data indicate that T cells from poor responders are in an enhanced activation state possibly as a result of chronic inflammation. In the absence of any other cause (such as iron deficiency), the overproduction of cytokines may account for hyporesponsiveness to erythropoietic therapy in patients with renal failure.
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PMID:Increased expression of erythropoiesis inhibiting cytokines (IFN-gamma, TNF-alpha, IL-10, and IL-13) by T cells in patients exhibiting a poor response to erythropoietin therapy. 1281 37

Patients with inflammatory bowel disease (IBD) are often treated with tumor necrosis factor (TNF)-alpha inhibitors and are therefore at higher risk for tuberculosis (TB) reactivation. IBD patients also frequently have iron deficiency which is often treated with intravenous iron supplementation. Iron plays an important role in mycobacterial infections, and reactivation of TB has been rarely reported after iron repletion. We present a case of a 63-year-old male with a history of Crohn's disease, on treatment with adalimumab for 2 years. The patient presented with malaise, mild lethargy, low-grade fever, and hyponatremia within a week after the first dose of intravenous iron. He was diagnosed with central nervous system TB (positive cerebrospinal fluid polymerase chain reaction and culture) and responded to treatment with a four-drug regimen. The timing of TB reactivation (within a week after intravenous iron administration) suggests that iron repletion contributed to the clinical reactivation of TB. Biological plausibility and prior similar clinical observations further support the causality of this association. Considering the frequency of iron deficiency in IBD, we believe that it is worthy to further explore the potential association between intravenous iron administration and the timing of TB reactivation in patients being treated with TNF-alpha inhibitors.
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PMID:Central nervous system tuberculosis reactivation following intravenous iron supplementation. 3086 Jan 89