Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0240066 (iron deficiency)
7,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Anemia should not be accepted as an inevitable consequence of aging. A cause is found in approximately 80 percent of elderly patients. The most common causes of anemia in the elderly are chronic disease and iron deficiency. Vitamin B12 deficiency, folate deficiency, gastrointestinal bleeding and myelodysplastic syndrome are among other causes of anemia in the elderly. Serum ferritin is the most useful test to differentiate iron deficiency anemia from anemia of chronic disease. Not all cases of vitamin B12 deficiency can be identified by low serum levels. The serum methylmalonic acid level may be useful for diagnosis of vitamin B12 deficiency. Vitamin B12 deficiency is effectively treated with oral vitamin B12 supplementation. Folate deficiency is treated with 1 mg of folic acid daily.
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PMID:Anemia in the elderly. 1103 74

Circulating serum transferrin receptor level was measured using mouse monoclonal antibody against transferrin receptor (Orion Diagnostica, Finland) in 126 patients with various disorders of erythropoiesis and the results were compared to those obtained form control group consisted of 30 healthy volunteers with normal iron stores. Serum transferrin receptor level was significantly elevated in patients with iron deficiency and in all patients with hyperplastic erythropoiesis (hereditary spherocytosis, immune hemolytic anemia, beta thalassemia, myelodysplasia). Measurement of circulating serum transferrin receptor level was a sensitive indicator of iron depletion as well as a helpful parameter in differential diagnosis between iron deficiency and anemia of chronic disease where circulating transferrin receptor level was not elevated. Index transferrin receptor/ferritin calculated as a ratio of circulating serum transferrin receptor level to log serum ferritin level was a more sensitive parameter than measurement of serum transferrin receptor not only for determination of patients with anemia of chronic disease, but also for discrimination of patients with elevated serum transferrin receptor level due to true iron deficiency from those with high serum transferrin receptor level caused by relative iron deficiency in hyperplastic erythropoiesis.
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PMID:[Clinical importance of determining levels of circulating transferrin receptors in blood]. 1104 46

Both anaemia of iron deficiency and anaemia of chronic disease are frequently encountered in inflammatory bowel disease. Anaemia of iron deficiency is mostly due to inadequate intake or loss of iron. Anaemia of chronic disease probably results from decreased erythropoiesis, secondary to increased levels of proinflammatory cytokines, reactive oxygen metabolites and nitric oxide. Assessment of the iron status in a condition associated with inflammation, such as inflammatory bowel disease, is difficult. The combination of serum transferrin receptor with ferritin concentrations, however, allows a reliable assessment of the iron deficit. The best treatment for anaemia of chronic disease is the cure of the underlying disease. Erythropoietin reportedly may increase haemoglobin levels in some of these patients. The anaemia of iron deficiency is usually treated with oral iron supplements. Iron supplementation may lead to an increased inflammatory activity through the generation of reactive oxygen species. To date, data from studies in animal models of inflammatory bowel disease support the theoretical disadvantage of iron supplementation in this respect. The results, however, cannot easily be extrapolated to the human situation, because the amount of supplemented iron in these experiments was much higher than the dose used in patients with iron deficiency.
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PMID:Iron and inflammatory bowel disease. 1128 71

Although anemia is a common finding among human immunodeficiency (HIV)-infected infants in sub-Saharan Africa, the factors contributing to the pathogenesis of anemia have not been well characterized. We sought to characterize the relative contribution of iron deficiency and chronic disease to the anemia among infants. Hemoglobin, ferritin, erythropoietin, tumor necrosis factor-alpha (TNF-alpha), neopterin, CD4(+) lymphocyte count and plasma HIV load were measured in 165 HIV-infected and 39 uninfected 9-mo-old infants seen in an outpatient pediatric clinic in Kampala, Uganda. Among HIV-infected and uninfected infants, the prevalence of anemia (hemoglobin < 110 g/L) was 90.9 and 76.9%, respectively (P = 0.015), and the prevalence of iron deficiency anemia (hemoglobin < 110 g/L and ferritin < 12 microg/L) was 44.3 and 45.4%, respectively (P = 0.92). The relatively higher prevalence of anemia among HIV-infected infants was attributed to the anemia of chronic disease. Among infants with and without iron deficiency, the fitted regression line was log(10) plasma erythropoietin = 2.86 - 0.016.hemoglobin, and log(10) plasma erythropoietin = 4.11 - 0.028.hemoglobin, respectively, with a difference in the slope of the regression lines between log(10) erythropoietin and hemoglobin among infants with and without iron deficiency (P = 0.049). Infants in Uganda have an extremely high prevalence of anemia, and nearly half of the anemia is due to iron deficiency. The erythropoietin response to anemia appears to be upregulated among infants with iron deficiency.
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PMID:Iron deficiency anemia is highly prevalent among human immunodeficiency virus-infected and uninfected infants in Uganda. 1188 May 66

Several recently published reports have advanced our understanding of the epidemiology of anemia associated with chronic renal insufficiency. Anemia is commonly observed among subjects with chronic renal insufficiency. In comparison with subjects with preserved renal function, a significant decrease in hemoglobin could be detected in subjects with more modest degrees of renal insufficiency than was previously realized. Some of this undoubtedly reflects a decrease in renal production of erythropoietin, but these subjects may also suffer concomitant 'anemia of chronic disease'. Anemia is more likely not only among those with worse renal insufficiency, but also among black subjects, those with relative iron deficiency and those with lower serum albumin. Compared with those with preserved renal function, a significant decrease in hemoglobin could be detected in men at higher estimated creatinine clearance levels than in women; and at any given creatinine clearance, the decrease in hemoglobin is greater in men than in women. In the US, 800000 adults were estimated to suffer chronic renal insufficiency associated anemia, defined as hemoglobin level below 11 g/dl. As detailed in the present review, several methodological issues should be kept in mind when interpreting the literature. Further studies are needed to define the clinical implications of this common condition and to determine the most appropriate therapeutic response.
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PMID:Epidemiology of anemia associated with chronic renal insufficiency. 1198 Dec 65

Most cells acquire iron from plasma transferrin and it is the transferrin receptor that is responsible for the internalization of transferrin-bound iron and its subsequent intracellular release. Plasma concentrations of the receptor reflect cellular receptor numbers and may be determined by enzyme immunoassay on automated analysers. Although determination of receptor concentrations may provide little additional value to existing measures of iron status, particular circumstances may dictate the use of these assays. This review summarizes transferrin receptor physiology and biochemistry, the limitations of the methodology that is currently available and the clinical application of assays (a) in monitoring changes in the rate of erythropoiesis, (b) as an indicator of developing iron deficiency and (c) in identifying iron deficiency in patients with anaemia of chronic disease.
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PMID:Serum transferrin receptor assays and their application. 1203 96

Iron appears to exert self-regulatory control over erythroblast iron uptake, iron storage and its incorporation into haem. It does this via iron regulatory proteins (IRPs) which bind reversibly to the iron responsive elements (IREs) on the mRNA of transferrin receptor (TfR), erythroid 5-aminolaevulinic acid synthase (ALA-S2) and ferritin. Iron deficiency leads to the binding of IRP to IRE. This binding inhibits the translation of mRNA for ALA-S2 and ferritin but stabilizes mRNA for TfR expression. Sideroblastic erythropoiesis is highly ineffective and characterized by mitochondrial iron loading. The study of X-linked sideroblastic anaemia has shown that the entry of iron into the mitochondria is poorly controlled and able to occur when protoporphyrin production is reduced, as is seen with the ALA-S2 mutations, or when it is increased as has been seen with ABC7 transporter mutations. Sideropenia characterises both iron deficiency anaemia (IDA) and the anaemia of chronic disease (ACD). Erythroblasts in ACD seem doubly equipped to protect their iron supply with their ability to increase the efficiency of transferrin-iron uptake as well as to activate the IRP/IRE system to increase surface TfR production. This increase in efficiency restricts the need to increase surface TfR production and maintains serum soluble TfR (sTfR) values within the normal range in iron replete ACD. The coexistence of iron deficiency with chronic disease, however, is associated with an increase in both the efficiency and number and a highly significant rise in sTfR values.
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PMID:Erythroblast iron metabolism in sideroblastic and sideropenic states. 1224 84

The anemia of chronic disease traditionally is defined as a hypoproliferative anemia of no apparent cause that occurs in association with an inflammatory, infectious, or neoplastic disorder, and resolves when the underlying disorder is corrected. Disordered iron metabolism as manifested by a low serum iron, decreased serum transferrin, decreased transferrin saturation, increased serum ferritin, increased reticuloendothelial iron stores, increased erythrocyte-free protoporphyrin, and reduced iron absorption, is a characteristic feature of the anemia of chronic disease and has been thought to be a major factor contributing to the syndrome. A mild shortening of red cell life span also occurs. However, we now know that impaired erythropoietin production and impaired responsiveness of erythroid progenitor cells to this hormone are also important abnormalities contributing to the anemia of chronic disease, and appear to be due to the effects of inflammatory cytokines. Increased intracellular iron may also have a role in the inhibition of erythropoietin production, since the oxygen sensor is a hemoprotein. While the role of inflammatory cytokines in the pathogenesis of anemia of chronic disease appears unequivocal, it has become apparent that disordered iron metabolism, while characteristic of this form of anemia, may not be central to its pathogenesis. It is undisputed that iron absorption is reduced, and that iron administered intravenously is rapidly sequestered in the reticuloendothelial system; however, iron delivery to the bone marrow is not impaired, and erythroid iron utilization is not markedly depressed in anemia of chronic disease. Importantly, recombinant erythropoietin therapy can correct the anemia of chronic disease, but it cannot correct the anemia due to iron deficiency. This refutes the concept that the lack of available iron is central to the pathogenesis of the syndrome. Indeed, it is highly likely that abnormalities such as reduced iron absorption and decreased erythroblast transferrin-receptor expression largely result from decreased erythropoietin production and inhibition of its activity by inflammatory cytokines.
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PMID:Iron and the anemia of chronic disease. 1238 Sep 52

Iron deficiency anemia is one of the most common diseases worldwide. In the majority of cases, the presence of hypochromic microcytic anemia and biochemical evidence for depletion of body iron stores makes the diagnosis relatively straightforward. However, in several clinical conditions, classic biochemical indices such as serum iron, transferrin saturation, and ferritin may not be informative or may not change rapidly enough to reflect transient iron-deficient states (functional iron deficiency), such as the ones that develop during recombinant human erythropoietin (r-HuEPO) therapy. The identification and treatment of iron deficiency in settings such as r-HuEPO therapy, anemia of chronic disease, and iron deficiency of early childhood may be improved by the use of red cell and reticulocyte cellular indices, which reflect in almost real time the development of iron deficiency and the response to iron therapy. In the anemia of chronic disease, measurements of plasma cytokines and iron metabolism regulators such as hepcidin (when available) may be helpful in the characterization of the pathophysiologic basis of this condition. The ratio of serum transferrin receptor (sTfR) to serum ferritin (R/F ratio) has been shown to have excellent performance in estimating body iron stores, but it cannot be used widely because of the lack of standardization for sTfR assays. The combination of hematologic markers such as reticulocyte hemoglobin content, which decreases with iron deficiency, and R/F ratio may allow for a more precise classification of anemias.
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PMID:Iron deficiency and erythropoiesis: new diagnostic approaches. 1450 May 82

We report the case of a patient with a severe chronic radiation enteropathy. She had been dependent on red cell transfusions for many years. On admission, she displayed anemia (8.6 g/dL) resulting from both inadequate EPO production and a functional iron deficiency. A 3-wk IV iron sucrose treatment (200 mg once weekly) resulted in an increased reticulocyte count, but did not raise the hemoglobin (Hb) level. The adjunction of epoetin alpha (10,000 IU three times a week) made it possible to reach the normal range (12.9 g/dL) after a 17-wk treatment. As the anti-anemic treatment discontinued, the Hb level decreased to 11.1 g/dL within 2 wk. Giving EPO again (10,000 IU twice a week) failed to maintain the Hb level, which dropped under basal values (7.8 g/dL). In contrast, a second combination EPO/iron sucrose did restore a normal Hb level and maintained it. This case report supports the combination of EPO and IV iron supplementation in patients with anemia of chronic disease and either an impaired iron absorption or intolerance to oral iron.
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PMID:Epoetin alfa and intravenous iron sucrose to treat severe anemia in a patient with chronic radiation enteropathy: a case report. 1451 81


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