UNIPROT:P02794 - FACTA Search

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Query: UNIPROT:P02794 (ferritin)
17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Anemia is a frequently observed manifestation during the clinical course of chronic liver disease. In this study, we retrospectively reviewed the hospital files of 500 chronic liver disease patients and assessed the frequency, etiology and morphology of anemia in 50 patients who fulfilled the criteria to be included in the study. The mean age of the patients was 48+/-16 years and male/female ratio was 1.4/1. The mean hemoglobin value was 9.54+/-2.03 g/dl. The mean MCV was 82.9+/-10.52 fl. Iron deficiency anemia, defined as absent bone marrow iron stores, was the most common anemia present in 50% of patients. Classical laboratory criteria used in the diagnosis of iron deficiency anemia (MCV < 80 fl, ferritin < 10 ng/ml) could not be applicable to all of the patients with iron deficiency anemia and hepatic disorders. Hemolytic anemia due to hypersplenism was the second most common anemia (24%) followed by anemias, namely anemia due to gastrointestinal hemorrhage (22%), anemia of chronic disease (8%), beta-thalassemia major (8%), folate deficiency (6%), vitamin B12 deficiency (4%), macrocytic anemia (2%), aplastic anemia (2%) and immune hemolytic anemia (2%). Twenty-eight percent of the patients had more than a single cause of anemia. Morphologically, microcytic anemia was the most common seen in 46% of the patients followed by normocytic (42%) and macrocytic anemia (12%). As patients do not always present with classical laboratory findings and may have more than a cause of anemia, a complex diagnostic approach should be considered in anemic patients with hepatic disorders.
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PMID:Erythrocytes: Anemias in Chronic Liver Diseases. 1139 3

Hereditary aceruloplasminemia is an autosomal recessive disorder of iron homeostasis due to loss-of-function mutations in the ceruloplasmin gene. Affected individuals may present in adulthood with evidence of hepatic iron overload, diabetes, peripheral retinal degeneration, dystonia, dementia, or dysarthria. Laboratory studies demonstrate microcytic anemia, elevated serum ferritin, and a complete absence of serum ceruloplasmin ferroxidase activity. Consistent with the observed neurologic findings, magnetic resonance imaging reveals iron accumulation within the basal ganglia. Histologic studies detect abundant iron in hepatocytes, reticuloendothelial cells of the liver and spleen, beta cells of the pancreas, and astrocytes and neurons throughout the central nervous system. Characterization of this disorder reveals an essential role for ceruloplasmin in determining the rate of iron efflux from cells with mobilizable iron stores and provides new insights into the mechanisms of human iron metabolism.
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PMID:The copper-iron connection: hereditary aceruloplasminemia. 1238 3

X-linked sideroblastic anemia (XLSA) is caused by mutations in the erythroid-specific 5-aminolevulinic acid synthase (ALAS2) gene. Hemizygous males have microcytic anemia and iron overload. A 38-year-old male presented with this phenotype (hemoglobin [Hb] 7.6 g/dL, mean corpuscular volume [MCV] 64 fL, serum ferritin 859 microg/L), and molecular analysis of ALAS2 showed a mutation 1731G>A predicting an Arg560His amino acid change. A 36-year-old brother was hemizygous for this mutation and expressed the mutated ALAS2 mRNA in his reticulocytes, but showed almost no phenotypic expression. All 5 heterozygous females from this family, including the 3 daughters of the nonanemic hemizygous male, showed marginally increased red-cell distribution width (RDW). Although variable penetrance for XLSA in males has been previously described, this is the first report showing that phenotypic expression can be absent in hemizygous males. This observation is relevant to genetic counseling, emphasizing the importance of gene-based diagnosis.
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PMID:Absent phenotypic expression of X-linked sideroblastic anemia in one of 2 brothers with a novel ALAS2 mutation. 1239 18

Iron transport in the plasma is carried out by transferrin, which donates iron to cells through its interaction with a specific membrane receptor, the transferrin receptor (TfR). A soluble form of the TfR (sTfR) has been identified in animal and human serum. Soluble TfR is a truncated monomer of tissue receptor, lacking its first 100 amino acids, which circulates in the form of a complex of transferrin and its receptor. The erythroblasts rather than reticulocytes are the main source of serum sTfR. Serum sTfR levels average 5.0+/-1.0 mg/l in normal subjects but the various commercial assays give disparate values because of the lack of an international standard. The most important determinant of sTfR levels appears to be marrow erythropoietic activity which can cause variations up to 8 times below and up to 20 times above average normal values. Soluble TfR levels are decreased in situations characterized by diminished erythropoietic activity, and are increased when erythropoiesis is stimulated by hemolysis or ineffective erythropoiesis. Measurements of sTfR are very helpful to investigate the pathophysiology of anemia, quantitatively evaluating the absolute rate of erythropoiesis and the adequacy of marrow proliferative capacity for any given degree of anemia, and to monitor the erythropoietic response to various forms of therapy, in particular allowing to predict response early when changes in hemoglobin are not yet apparent. Iron status also influences sTfR levels, which are considerably elevated in iron deficiency anemia but remain normal in the anemia of inflammation, and thus may be of considerable help in the differential diagnosis of microcytic anemia. This is particularly useful to identify concomitant iron deficiency in a patient with inflammation because ferritin values are then generally normal. Elevated sTfR levels are also the characteristic feature of functional iron deficiency, a situation defined by tissue iron deficiency despite adequate iron stores. The sTfR/ferritin ratio can thus describe iron availability over a wide range of iron stores. With the exception of chronic lymphocytic leukemia (CLL) and high-grade non-Hodgkin's lymphoma and possibly hepatocellular carcinoma, sTfR levels are not increased in patients with malignancies. We conclude that soluble TfR represents a valuable quantitative assay of marrow erythropoietic activity as well as a marker of tissue iron deficiency.
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PMID:Soluble transferrin receptor for the evaluation of erythropoiesis and iron status. 1258 62

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

OBJECTIVE: To analyze the evolution of clinical and hematological aspects of the children infected with HIV 1. METHODS: Using the CDC criteria, 1994, 37 children with HIV infection were selected, followed up at the Immunodeficiency Clinic at UNICAMP. The study is longitudinal descriptive. Complete blood count, ferritin, serum iron, TIBC and direct Coombs were carried out. RESULTS: The clinical category that predominated wasB(45.94%) and categories A and C were equal (27.03%). All of them were having antiretroviral therapy. Hypochromic and microcytic anemia were seen in 100% of patients up to 12 months of age. There was association between anemia and the progression of the disease, both clinical (p=0.031) and immunological (p=0.0027) and with lymphopenia too (p=0.033). Thrombocytopenia occurred in 10 to 25% of the patients. Low serical ferritin was seen in 2.7% of the cases and low serum iron in 11.1%. All the 15 patients analyzed had negative Coombs test. There was weight and height reduction in 23.5 to 45% of the children and 70.3% had clinical manifestations up to 9 months of age. During the follow up 13.2% of the patients died. CONCLUSIONS: There was association between anemia and lymphopenia with the progression of the disease. In relation to the aetiology of the anemia, about 10% can be considered anemia of chronic disease. Probably the hematological abnormalities seen in peripheral blood are the consequences of loss of control of cellular death mechanism and hematopoiesis in individuals infected by HIV 1.
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PMID:[Evolution of hematological parameters in a group of children with human immunodeficiency virus infection - HIV 1] 1468 99

Hereditary haemochromatosis is an autosomal recessive disorder, leading to progressive iron overload, which is very common among the Caucasian population. In the vast majority of the cases, the hereditary iron overload is caused by mutations in the HFE gene. Most prominently this is the homozygous Cys282Tyr mutation. We report two Dutch families in which both propositi were found to be heterozygous for Cys282Tyr in the work-up of hyperferritinaemia. Frequent phlebotomies had no effect on the ferritin level, but led to microcytic anaemia. Finally, the family history with bilateral cataracts was the clue for the correct diagnosis. Hereditary hyperferritinaemia-cataract syndrome (HHCS) is an autosomal dominant disease characterised by elevated serum ferritin levels and bilateral cataracts in the absence of iron overload. Several point mutations and deletions within the iron-responsive element (IRE) in the 5' noncoding region of the L-ferritin gene have been found in HHCS families. In the first Dutch family a G to C transition at position 32 was found and a G to A mutation at the same location was found in the second Dutch family. In individuals with an isolated hyperferritinaemia (normal transferrin saturation), the presence of early onset (familial) cataract should raise the possibility of HHCS, even when Cys282Tyr heterozygosity is found.
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PMID:Two Dutch families with hereditary hyperferritinaemia-cataract syndrome and heterozygosity for an HFE-related haemochromatosis gene mutation. 1469 43

Iron-deficiency anemia is one of the major problems encountered in renal transplant recipients. The aim of this retrospective study was to reevaluate the causes of anemia among 100 anemic kidney recipients. Patients with serum creatinine levels greater than 2 mg/dL were excluded from the study. Female patients were considered to be anemic if the hemoglobin was <12 g/dL for males, <13 g/dL. Complete blood count, serum creatinine, serum iron, iron-binding capacity, ferritin, transferrin saturation, erythrocyte folate, and serum vitamin B(12) levels were measured in all patients. Mean hemoglobin value was 10.2 +/- 1.4 g/dL for female and 9.9 +/- 1.3 for male patients, mean corpuscular volume (MCV) 91.3 +/- 4.9 fL. We observed normocytic anemia in 60, macrocytic anemia in 30, and microcytic anemia in 10 patients. A low level of serum folate was observed in 9 (15%) and of vitamin B(12) in 5 (8.8%) of 60 patients with normocytic anemia. Folate deficiency was found in 18 (60%) and vitamin B(12) deficiency in 12 (40%) of 30 patients with macrocytic anemia. All patients with microcytic anemia had iron deficiency. Splenomegaly was seen significantly more often in patients with macrocytic than normocytic anemia (P =.008). Folate and vitamin B(12) deficiency were the major causes of nutritional anemia; oral or parenteral supplementation with these vitamins is likely to cure the anemia in the majority of cases.
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PMID:Causes of anemia in renal transplant recipients. 1501 34

Laboratory investigation plays a crucial role in the workup of hematological disease. The well established method of morphological analysis of blood components has been continuously complemented by other methods. On one hand, these consist of considerable improvements of methods employed for automated cell enumeration allowing for early and accurate detection of cell subpopulations, and quantification of valuable red cell parameters, which are of use in the differential diagnosis of anemia. On the other hand, several parameters for the differentiation of microcytic anemia have become available often allowing for the sometimes difficult diagnosis of anemia of chronic disease, iron deficiency anemia, or thalassemia (ferritin, soluble transferrin receptor, transferrin saturation, RDW, zinc protoporphyrin, as well as reticulocyte indices CHr, Ret-Y Hypo%). In macrocytic anemia, introduction of methods to measure methylmalonic acid (MMA), homocystein, holotranscobalamin (holo-TC), complement the determinations of vitamin concentrations (vitamin B12, folic acid in serum and erythrocytes). Employing these newer parameters in addition to the well established ones allows for detection of early or combined disease. The clinician has to know the diagnostic characteristics not only of the old but also of the newer parameters.
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PMID:[Conventional and new laboratory parameters in the evaluation of hematologic disease]. 1501 92

Sickle-beta(+) (beta(+)) thalassemia is a double heterozygous genetic disorder characterized by both a qualitative and quantitative abnormality. We present a case of an African American male who was first diagnosed with sickle cell disease (SCD) at the age 23 years when he presented with generalized bone pain, fever, and hepatosplenomegaly. Laboratory findings included thrombocytopenia, microcytic anemia, and markedly elevated ferritin. He was subsequently diagnosed with a sickle-beta thalassemia hemoglobinopathy. Findings in the bone marrow aspirate and biopsy were consistent with hemophagocytic lymphohistiocytosis (HLH). HLH resolved with the resolution of sickle cell bone pain crisis without use of immunosuppressive therapy. To the best of our knowledge this is the first documented case of HLH associated with sickle cell bone pain crisis.
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PMID:Sickle cell crisis associated with hemophagocytic lymphohistiocytosis. 1549 57

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