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)

Six children (aged 3 years 11 months to 15 years 9 months) with end-stage renal failure and anaemia (mean haemoglobin 7.1 g/dl, range 6.3-7.7 g/dl) on thrice-weekly haemodialysis were treated with recombinant human erythropoietin (rHuEPO), given as an intravenous bolus in an escalating dose regime after dialysis. All responded with an increase in reticulocyte count and haemoglobin concentration in a mean time of 11 weeks (range 9-13 weeks) and at a dose of 100 or 150 units/kg thrice weekly. The dose of rHuEPO was then adjusted to maintain the haemoglobin concentration within the lower half of the normal range for the child's age and sex. The mean haemoglobin after 12 weeks treatment was 10.9 g/dl (range 8.5-12.1 g/dl) and after 24 weeks, 10.5 g/dl (range 7.9-13.3 g/dl). Four children had no further need for blood transfusion and are thus no longer at risk of blood-borne infection, iron overload and sensitisation to HLA histocompatibility antigens. Serum ferritin fell in the three patients with evidence of iron overload; the three with low or normal iron stores at the onset of treatment maintained erythropoiesis with oral iron supplementation. HLA antibodies decreased in all patients. The only serious complication encountered was thrombosis of vascular access in one child. No child became seriously hypertensive or developed cerebral symptoms. The benefits of rHuEPO therapy for children with end-stage renal failure are potentially considerable and with careful monitoring, the risks low.
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PMID:Recombinant human erythropoietin therapy in children maintained by haemodialysis. 208 64

Twelve patients (5 women and 7 men, aged from 19 to 54 years) presenting with congenital, non-spherocytic haemolytic anaemia due to erythrocyte pyruvate kinase (PK) deficiency were investigated for systemic iron overload 18 to 27 years after the diagnosis was made. One patient had, beside PK deficiency, idiopathic haemochromatosis demonstrated by the HLA A3 and B14 markers. Another, 21-year old male patient had received more than 100 blood transfusions. In both patients, blood ferritin levels were as high as 5,584 and 9,665 g/litre respectively. Among the remaining 10 patients, 9 had biochemical signs of iron overload, such as high serum iron levels, reduced total siderophilin saturation capacity and blood ferritin levels of about 1,500 g/litre. Hepatic histology could be obtained from 5 patients and showed significant iron overload with cirrhosis in one case and clear-cut portal fibrosis in 3 cases. In all but the patient with multiple transfusions the iron overload was unrelated to transfusions, being present in their absence, usually during the 3rd and 4th decades of their life. The finding of iron overload requires preventive measures such as limitation of transfusions and elimination of iron by deferoxamine therapy.
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PMID:[Iron overload in congenital hemolytic anemia caused by pyruvate kinase deficiency. A major late complication]. 214 11

The diagnostic efficacy of hepatic computed tomography density (HCTD) in comparison with serum ferritin for the detection of iron overload was investigated in uremic patients on maintenance hemodialysis (HD) and in patients with idiopathic hemochromatosis (IHC). Ten IHC patients, 38 HD patients and 40 healthy subjects underwent the CT scanning of the liver and determination of percent saturation of transferrin, serum ferritin concentration and HLA typing. Liver iron content was determined by histochemical grading and direct measurement of liver iron concentration either in IHC patients or in HD patients. Nineteen HD patients were considered to have iron overload on the basis of liver iron concentration exceeding 3.6 mumol/100 mg dry weight. The mean +/- SD values of HCTD in healthy subjects, IHC patients, HD patients with iron overload and without iron overload were 60.2 +/- 5.6, 79 +/- 5.6, 71.4 +/- 3.6, 58 +/- 3.8 Hounsfield units, respectively. HCTD showed positive correlations with liver iron concentration and serum ferritin either in IHC patients or in HD patients. The analysis of the diagnostic efficacy of HCTD in comparison with serum ferritin for the detection of excessive hepatic iron in HD patients demonstrated that HCTD had higher sensitivity, specificity, positive and negative predictive values. Cut-off points were arbitrarily fixed to 66 Hounsfield units for HCTD, 400 micrograms/liter for serum ferritin and 3.6 mumol/100 mg dry weight for liver iron concentration. Seventeen HD patients who possessed the histocompatibility antigens associated with IHC, namely HLA-A3 and/or HLA-B7 and/or HLA-B14, had liver iron concentration, serum ferritin and HCTD values higher than those of the HD patients without these "hemochromatosis alleles".(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Efficacy of hepatic computed tomography to detect iron overload in chronic hemodialysis. 231 82

A standard magnetic resonance imaging (MRI) system allowing spin echo times of 10 ms was used to quantitate liver iron concentration in nine healthy normal subjects and 13 patients with various grades of iron overload. Body iron status was estimated by measuring the serum ferritin concentration. In 11 subjects (two normal healthy controls, eight patients with HLA-related hereditary haemochromatosis and one patient with thalassaemia major) non-haem hepatic iron concentration was determined chemically in biopsy specimens (dry weight), in parallel to serum ferritin and MRI-T2 relaxation times. A moderate correlation (r = 0.79) was obtained for the correlation of the T2-relaxation rate (1/T2) and serum ferritin of the 22 subjects investigated. A much closer correlation (r = 0.98) was observed for the 1/T2 liver iron relationship in the 10 subjects analysed by liver biopsy. It is concluded from these preliminary observations, that MR-imaging may provide a useful non-invasive tool for the quantitative determination of liver iron in iron overload-syndromes.
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PMID:Non-invasive quantitation of liver iron-overload by magnetic resonance imaging. 233 43

We examined the iron status of 23 adult patients with hemoglobin H (Hb H) disease. None of them had received multiple blood transfusions or prolonged iron therapy. Studies included serum iron and ferritin concentrations, transferrin saturation, a desferrioxamine test, computed tomography (CT) scan of the liver, and liver biopsy. Iron overload was found in 17 patients (73.9%), especially in males and in patients with splenomegaly (92.9% and 100%, respectively). Four patients with excessive alcohol consumption had clinical manifestations of severe iron overload. Idiopathic hemochromatosis associated HLA antigens, i.e., HLA-A3, -B7, or -B14, were not found in any of the 15 patients tested. These findings indicate that iron overload is common in adult patients with Hb H disease; such patients should abstain from alcohol and be considered for treatment with an iron chelating agent before irreversible organ damage occurs.
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PMID:Iron overload in Chinese patients with hemoglobin H disease. 236 95

Pedigree studies were performed based on one Faroese and four Danish probands with overt idiopathic hemochromatosis (IH). The study consisted of HLA typing and determination of biochemical iron status indicators (serum transferrin saturation, serum ferritin). In total, 130 persons were evaluated. The screening identified 6 homozygous (h/h) subjects with preclinical IH, 46 heterozygous (h/n), and 8 normal (n/n) subjects, while 39 subjects were classified as normal or heterozygous (n/h?). One family demonstrated both a homozygous x heterozygous as well as a heterozygous x heterozygous mating. Recombination between the HLA region and IH locus occurred possibly in three subjects in three different families. The significance of detailed screening in families with probands with IH is discussed.
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PMID:Family studies of hereditary hemochromatosis in Denmark and the Faroe Islands. 237 54

Several inherited forms of iron overload have been described. It is now accepted that HC, usually regarded as a disease of adult life, is an inherited disorder, hence all first degree relatives must be presumed to be at increased risk of developing iron overload and the diagnosis is now frequently made in young relatives. The combination of serum iron, transferrin saturation and serum ferritin determination will detect iron overload in an early, precirrhotic stage. Liver biopsy and the determination of hepatic iron concentration provide the definitive proof. Where HC is recognized sufficiently early to permit adequate removal of iron before cirrhosis has developed, the prognosis is excellent. Thus haemochromatosis as a clinical disease should be preventable in a large proportion of patients. Severe iron overload has been described in juveniles and also in neonates. These conditions are familial but whether they are HLA-related has not been determined. Cardiac and endocrine disorders are frequently the presenting manifestations of parenchymal iron overload in the young and, at least in neonates, the condition is usually fatal in early infancy. It is not possible at present, to say whether these rare juvenile and neonatal forms of haemochromatosis are related to the much more common adult form. Identification of the gene for HC may assist in answering this question.
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PMID:Inherited iron overload. 248 90

Fundamental aspects of iron metabolism relate to the dynamic processes of metal plasma transport as well as cell storage and efflux. Transferrin not only carries iron in the plasma but also delivers it to the various cells by binding to a diffuse specific cell receptor; it also acts by chelating cell iron. Ferritin co-operates by storing iron in the cell. By a still unknown regulatory mechanism, iron, from the ferritin pool, is redistributed in the cell to a cytosolic, easily chelatable, "transit" pool or to a degradative lysosomal hemosiderin pool from which it is slowly released outside the cell. Iron overload, such as that typical of hyperhemolysis or hemochromatosis, profoundly impairs its metabolism by saturating and/or altering transferrin and ferritin, by freeing iron from any regulated transport, thus allowing parenchymal deposition and damage. An important aspect still awaiting clarification relates to the different storage of excess iron in the parenchymal cells, as in hemochromatosis, or in the reticuloendothelial system such as in hemosiderosis. Studies using cellular models attempt to evaluate such differences in terms of altered properties of the iron proteins or their cell receptors, and of the different cell responsivity to non-transferrin iron. In the expectation of better knowledge, attention should be concentrated, from a clinical standpoint, on precise assessment of iron deposits in the tissues with the aim of preventing its excessive accumulation and parenchymal damage. In hemochromatosis, the risk of iron overload is evaluated by HLA typing.
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PMID:[Physiopathology of iron metabolism and hemochromatosis: interrelationships, assessment and pathogenesis of iron overload, screening]. 248 94

The authors studied the H ferritin restriction polymorphism in 83 hemochromatosis patients and 84 controls as well as in 19 nuclear families. No significant difference was found with the ten restriction enzymes used (HindIII, EcoRI, EcoRV, PvuII, BamHI, PstI, Bg/I, Bg/II, HincII, and TaqI). Hence, the genomic abnormality responsible for idiopathic hemochromatosis is not a major deletion of an H ferritin gene. A higher frequency of one HindIII fragment, although nonsignificant when the number of comparisons made is taken into account, was observed in the patients. This HindIII fragment hybridizes with the H ferritin probe and with a 28 S ribosomal probe, and its segregation with HLA haplotypes (hence its assignment to chromosome 6) is uncertain. Its possible meaning in the expression of the disease is discussed.
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PMID:Ferritin H gene polymorphism in idiopathic hemochromatosis. 256 49

High iron concentrations have been reported in the brains of multiple sclerosis victims. To determine if there are abnormalities in general iron metabolism indicative of iron overload in MS, measurements of transferrin saturation, serum ferritin and red cell ferritin in 31 female and 18 male patients were compared to the results in 49 age- and sex-matched healthy controls. Compared to controls, mean serum ferritin in MS was high, whereas transferrin saturation and red cell ferritin were similar. High values in one or more individual test results were observed in eleven MS patients. They were prevalent in patients who required bilateral assistance to walk or were confined to a chair, and appeared to be related to the severity of the disease. An investigation was made into the relationship of the high serum ferritin values in MS to the HLA-A3 histocompatibility antigen, a marker of the hemochromatosis gene which is prevalent in MS. A statistically significant interaction was not found between serum ferritin and the presence of HLA-A3.
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PMID:Abnormalities in iron metabolism in multiple sclerosis. 273 Oct 85

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