Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P02794 (ferritin)
17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The prevalence of iron deficiency anemia is 2 percent in adult men, 9 to 12 percent in non-Hispanic white women, and nearly 20 percent in black and Mexican-American women. Nine percent of patients older than 65 years with iron deficiency anemia have a gastrointestinal cancer when evaluated. The U.S. Preventive Services Task Force currently recommends screening for iron deficiency anemia in pregnant women but not in other groups. Routine iron supplementation is recommended for high-risk infants six to 12 months of age. Iron deficiency anemia is classically described as a microcytic anemia. The differential diagnosis includes thalassemia, sideroblastic anemias, some types of anemia of chronic disease, and lead poisoning. Serum ferritin is the preferred initial diagnostic test. Total iron-binding capacity, transferrin saturation, serum iron, and serum transferrin receptor levels may be helpful if the ferritin level is between 46 and 99 ng per mL (46 and 99 mcg per L); bone marrow biopsy may be necessary in these patients for a definitive diagnosis. In children, adolescents, and women of reproductive age, a trial of iron is a reasonable approach if the review of symptoms, history, and physical examination are negative; however, the hemoglobin should be checked at one month. If there is not a 1 to 2 g per dL (10 to 20 g per L) increase in the hemoglobin level in that time, possibilities include malabsorption of oral iron, continued bleeding, or unknown lesion. For other patients, an endoscopic evaluation is recommended beginning with colonoscopy if the patient is older than 50.
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PMID:Iron deficiency anemia. 1972 82

Iron can accumulate in the liver in a variety of conditions, including congenital, systemic iron-loading conditions (hereditary hemochromatosis), conditions associated with systemic macrophage iron accumulation (transfusions, hemolytic conditions, anemia of chronic disease, etc), in some hepatitidies (hepatitis C, alcoholic liver disease, porphyria cutanea tarda), and liver-specific iron accumulation of uncertain pathogenesis in cirrhosis. The anatomic pathologist will be faced with the task of determining whether iron accumulation in the liver is significant and, if so, the nature of the disease that lead to the accumulation (ie diagnosis). The tools available to the pathologist include (most importantly) histologic examination with iron stain, quantitative iron analysis, clinical history, laboratory iron tests (serum iron and iron-binding capacity, serum ferritin) and germline genetic analysis for mutations in genes known to be associated with hemochromatosis (HFE, ferroportin, hepcidin, hemojuvelin, transferrin receptor-2). This article provides an overview of the above.
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PMID:Iron overload syndromes and the liver. 1748 50

Anemia in celiac disease (CD) has been attributed to nutritional deficiencies; however, the clinical manifestations of CD have changed with nongastrointestinal presentations predominating. We collected hematologic parameters from a cohort of patients seen at a tertiary care center for CD to assess the characteristics of anemia in this population. Hematological parameters measured <or=3 months of diagnosis and degree of villous atrophy from 405 patients diagnosed >1995 was analyzed. Ferritin levels were compared with population controls (NHANES III). Iron deficiency was common, occurring in 33% of men and 19% of women (P < 0.001). Folate deficiency was seen in approximately 12% of the total sample and B12 deficiency in approximately 5%. Anemia was present in approximately 20% of the cohort. Among the anemic patients, ferritin was less than the 10th percentile in 45%, between the 10th and 50th percentile in 39% and greater than the 50th percentile in 13%. Ferritin > 50th percentile was more common in anemic men (24%) than in anemic women (9%; P > 0.20). Macrocytic anemia with concurrent B12 or folate deficiency was rare (3%). Elevated ESR was observed in patients with ferritin < 10th percentile and >50th. A gluten-free diet resulted in increased serum ferritin in iron-deficient patients, and decreased ferritin levels in those with high ferritin (r(2) = 0.46, P < 0.001). Although anemia is still a common presentation of celiac disease, nutritional deficiencies alone do not explain this phenomenon in all cases; inflammation appears to contribute as evidenced by the presence of anemia of chronic disease in some individuals.
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PMID:Anemia in celiac disease is multifactorial in etiology. 1763 74

Ferritin concentration, as a parameter of iron status that is commonly used in the diagnosis of iron deficiency anaemia (IDA), often has limited values if the iron deficiency is accompanied by inflammatory disease. This study evaluated the value of reticulocyte haemoglobin content (CHr) and soluble transferrin receptor-ferritin index (sTfR/F) in the diagnosis of IDA and differential diagnosis of IDA and anaemia of chronic disease. The study included 66 nonanaemic individuals as controls, 86 patients with IDA divided into noninflammatory and inflammatory subgroups, and 32 patients with anaemia of chronic disease. Blood count, iron, transferrin saturation, total iron binding capacity, ferritin, C-reactive protein, sTfR and CHr were determined. Receiver operator characteristic curve analysis showed very high discriminating power for CHr, soluble transferrin receptor (sTfR) and sTfR/F in the diagnosis of IDA. In patients with anaemia of chronic disease these parameters showed no significant difference from the control. CHr and sTfR enabled recognition of iron deficiency and were not affected by acute phase reaction. They are sensitive markers of body iron status with additional value to conventional tests for the detection of iron deficiency.
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PMID:Reticulocyte haemoglobin content vs. soluble transferrin receptor and ferritin index in iron deficiency anaemia accompanied with inflammation. 1827 24

Hepcidin has been proposed as an important factor in the pathogenesis of the anaemia of chronic disease (ACD). The aim of this study was to assess the relationship between anaemia and inflammatory activity in patients with solid tumours. Patients were classified as having iron deficiency anaemia (IDA) (hypoferremia and hypoferretinemia), ACD (hypoferremia, normal or increased serum ferritin) and anaemia related to cancer (ARC) (no abnormalities in iron status). Serum pro-hepcidin, IL-6, C-reactive protein (CRP) and iron status parameters were measured using commercial kits. CRP and IL-6 levels were significantly higher in patients with ACD when compared to IDA, ARC and non anaemic patients (P < 0.005). Serum pro-hepcidin levels were not different among all studied groups (P = 0.138). A negative correlation was observed between haemoglobin and serum ferritin, CRP and IL-6 levels only in group of ACD. Serum pro-hepcidin concentrations were not correlated with degree of anaemia or iron metabolism parameters. According to our results the inflammatory activity represented by high levels of IL-6 and CRP are involved in the pathogenesis of ACD, probably due to the action of inflammation on iron metabolism, but not in ARC. It was not possible to demonstrate a significant effect of pro-hepcidin on the anaemia in cancer patients.
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PMID:Anaemia in patients with cancer: role of inflammatory activity on iron metabolism and severity of anaemia. 1787 9

Iron deficiency anaemia (IDA) is common in Indian patients with rheumatoid arthritis (RA). We evaluated red blood cell indices, serum iron related and bone marrow iron stores measurements in diagnosing iron deficiency in patients with RA. Fifty consecutive anaemic patients with RA had their complete blood counts, red cell indices, serum iron, serum ferritin and serum total iron binding capacity (TIBC) measured and underwent posterior iliac crest bone marrow aspiration. Fixed smears were stained for iron with Perl's Prussian blue and patients who had no (grade 0) or minimal stainable iron (grade I) were regarded as iron deficient and rest iron replete (grade II-IV) and hence as having anaemia of chronic disease (ACD). To determine diagnostic power of tests used for diagnosing iron deficiency in addition to positive likelihood ratio, sensitivity, specificity and negative predictive values; receiver operating characteristics (ROC) curves were plotted and areas under the receiver-operating curves were compared. Eighteen patients (36%) had IDA and 32 (64%) had ACD. Correlation between the bone marrow iron stores and serum ferritin was poor in the IDA group (r = -0.09, P = 0.57) and significant in the ACD group (r = 0.79, P < 0.0001). Areas under the ROC curves for mean corpuscular haemoglobin (MCV), serum iron, TIBC and mean corpuscular haemoglobin concentration (MCHC) were relatively low (0.52, 0.71, 0.75 and 0.77, respectively) and these tests had low positive likelihood ratios (1.08, 2.13, 4.62 and 1.5, respectively). Both area under ROC curve [0.98, 95% confidence interval (0.94, 0.99)] and negative predictive value (97%) were highest when cut off serum ferritin was <82 microg/l. In patients with RA serum iron, TIBC, MCV and MCHC have limited value in diagnosing iron deficiency. In this study compared to American and European studies a much higher cut off value of serum ferritin had most diagnostic power for detecting iron deficiency. Bone marrow iron stores measurements appears to be the most reliable method for diagnosing IDA however, it needs to be taken in conjunction with other laboratory findings and the clinical scenario.
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PMID:The differentiation of anaemia in rheumatoid arthritis: parameters of iron-deficiency in an Indian rheumatoid arthritis population. 1796 47

Anemia can result from deficient erythropoiesis [aplastic anemia, myelodysplastic syndromes (MDS), iron deficiency anemia, anemia of chronic disease (ACD), thalassemia, megaloblastic anemia, chronic renal failure, hematological malignancies, etc.], excessive RBC destruction [hereditary spherocytosis, inherited enzyme deficiency, hemoglobinopathies, autoimmune hemolytic anemia (AIHA), paroxysmal nocturnal hemoglobinuria (PNH), etc.], and blood loss. Based on the measured red cell size(MCV), anemia is classified as microcytic, normocytic, or macrocytic. Iron parameters (serum iron, serum ferritin, etc.), reticulocyte count, bone marrow examination, Coombs test, serum vitamin B12 level, and Ham test are also useful in the differential diagnosis of anemia. Novel treatment of anemia includes lenalidomide for 5q(-)MDS, azacitidine for high-risk MDS, and eculizumab for PNH. Oral iron chelator(deferasirox) developed for the treatment of transfusional iron overload is also very useful for the management of patients with bone marrow failure syndromes.
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PMID:[Pathophysiology, diagnosis and treatment of anemia]. 1832 12

Anemia of chronic disease (ACD) is a mild to moderate anemia seen with many infections and inflammatory disorders. These patients have low serum iron, but high serum ferritin levels. As for the pathogenesis of ACD, previous studies have reported several abnormalities, such as insufficient EPO production, impaired growth response of erythroid progenitors to EPO, and shortened survival of erythrocytes, due to the inflammatory cytokines. However, recent analyses have clearly shown that hepcidin, of which expression is induced by inflammatory cytokines such as IL-1beta and IL-6, suppresses the expression of the iron transporter, ferroportin-1, thereby inhibiting the absorption of iron from the duodenum, the release of iron from the reticulo-endothelial system. So, the abnormal expression of hepcidin alone may be able to explain the unique iron metabolism in ACD.
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PMID:[Pathogenesis of anemia of chronic disease]. 1832 22

Although higher serum ferritin (SF) concentrations have been consistently observed among blacks, despite their lower hemoglobin (Hb) concentrations compared with whites, few studies attempted to explain this SF difference. To determine the possible factors contributing to the observed SF difference between blacks and whites, 1,938 non-Hispanic white (NHW) and 1,616 non-Hispanic black (NHB) male subjects, aged 20-65 years were selected from the third National Health and Nutrition Examination Survey (NHANES III). Multiple regression analysis was used to examine the contribution of dietary, biochemical, and socioeconomic variables to the observed SF difference between the two groups. NHB subjects showed a continuing, significantly higher SF concentration compared with NHW subjects at each age group. Age, serum total protein, mean cell volume (MCV), and gamma glutamyl transferase (GGT) were positively associated with SF, whereas percent energy from carbohydrate and fat, calcium intake, serum alpha-carotene, and iron binding capacity (TIBC) were inversely associated with SF (P < 0.01). After excluding subjects with abnormal serum total protein, TIBC and GGT levels from the analysis (the final regression model), the SF difference dropped to 3.95 microg/l (initial difference = 37.1 microg/l) between NHWs and NHBs. The results suggest that the oft-noted black-white SF difference is a result of factors including overall nutrition and health, iron status, and hepatic well-being. Higher SF, low Hb, and reduced TIBC level observed in blacks are consistent with the definition of anemia of chronic disease (ACD). Future investigations are needed to confirm the role of ACD in the black-white SF difference.
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PMID:Insights into the ethnic differences in serum ferritin between black and white US adult men. 1834 78

The biology of iron in relation to anemia is best understood by a review of the iron cycle, since the majority of iron for erythropoiesis is provided by iron recovered from senescent erythrocytes. In iron-deficiency anemia, storage iron declines until iron delivery to the bone marrow is insufficient for erythropoiesis. This can be monitored with clinical indicators, beginning with low plasma ferritin, followed by decreased plasma iron and transferrin saturation, and culminating in red blood cells with low-Hb content. When adequate dietary iron is provided, these markers show return to normal, indicating a response to the dietary supplement. Anemia of inflammation (also known as anemia of chronic disease, or ACD) follows a different course, because in this form of anemia storage iron is often abundant but not available for erythropoiesis. The diagnosis of ACD is more difficult than the diagnosis of iron-deficiency anemia, and often the first identified symptom is the failure to show a response to a dietary iron supplement. Confirmation of ACD is best obtained from elevated markers of inflammation. The treatment of ACD, which typically employs erythropoietin (EPO) supplements and intravenous iron (i.v.-iron), is empirical and often falls shorts of therapeutic goals. Dialysis patients show a complex pattern of anemia, which results from inadequate EPO production by the kidney, inflammation, changes in nutrition, and blood losses during treatment. EPO and i.v.-iron are the mainstays of treatment. Patients with heart failure can be anemic, with incidence as high as 50%. The causes are multifactorial; inflammation now appears to be the primary cause of this form of anemia, with contributions from increased plasma volume, effects of drug therapy, and other complications of heart disease. Discerning the mechanisms of anemia for the heart failure patient may aid rational therapy in each case.
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PMID:Iron and anemia in human biology: a review of mechanisms. 1836 95


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