Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

To determine the frequency of HLA histocompatibility antigens in persons with idiopathic hemochromatosis and their usefulness as genetic markers of the disease, HLA typing for the A, B and C loci was carried out. HLA-A3 was found in 61% of 18 unrelated individuals with idiopathic hemochromatosis compared with 25% of 253 randomly chosen control subjects (P less than 0.001), and HLA-B7 was found in 50% and 22% respectively (P less than 0.025). Eighty-six members of seven families with idiopathic hemochromatosis were screened for abnormalities in iron metabolism with tests for serum iron concentration, transferrin saturation, serum ferritin concentration and iron content of the hepatocytes. Of the 14 persons selected for liver biopsy because of abnormalities detected by these tests, 8 had increased amounts of stainable iron in the hepatocytes. Body iron overload was subsequently demonstrated in six of the seven, who had undergone repeated phlebotomy. In sibships having one member with hemochromatosis, only 1 of 22 members had two haplotypes in common with the proband, whereas in sibships having more than 1 member with the disease 4 of 5 affected members had two haplotypes in common. HLA typing in families with hemochromatosis may provide a means of identifying persons at risk of acquiring the disease.
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PMID:Histocompatibility antigens as markers of abnormal iron metabolism in idiopathic hemochromatosis. 8 5

The relationship between food iron absorption, iron stores, and plasma iron level was studied. On a low iron diet subjects with idiopathic hemochromatosis (IH) during reaccumulation of iron after phlebotomies showed a fall in plasma iron. Fortification of the diet with 22--135 mg of iron/day for 3 days caused little or no change in the plasma iron in subjects with normal iron stores, whereas in subjects with iron deficiency a significant rise in plasma iron occurred with the addition of 45 mg of iron/day. In subjects with IH with normal iron stores, plasma iron increased with the addition of 22.5 mg/day. These studies indicate that iron absorption is an important determinant of the elevated plasma iron in IH and that the plasma iron tolerance test combined with the serum ferritin may be used to detect excessive absorption of iron.
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PMID:Influence of food iron absorption on the plasma iron level in idiopathic hemochromatosis. 9 52

We studied 12 members of a family with precirrhotic hemochromatosis to define the physiologic abnormalities in the asymptomatic phase of the disease. Six of 12 had increased iron stores; the mode of inheritance was consistent with an autosomal dominant trait. Serum ferritin levels were no more predictive of tissue iron levels than measurements of serum iron, transferrin saturation or chelatable iron excretion. In three affected family members intestinal iron content was normal. Liver proline hydroxylase activity and urinary hydroxyproline excretion did not correlate with tissue iron content, suggesting that, in addition to the possible role of tissue iron, hepatic fibrosis may involve other factors. "Borderline diabetes mellitus" was present in three affected family members, but extensive studies revealed that pituitary dysfunction is uncommon in early hemochromatosis. Increased levels of liver iron proved to be the most reliable marker for the disease.
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PMID:Familial hemochromatosis. Physiologic studies in the precirrhotic stage of the disease. 19 51

(1) Brief introduction to iron metabolism and the biochemistry of ferritin. (2) Early studies of circulating ferritin. (3) Methods for measuring serum ferritin concentrations -- immunoradiometric, radioimmuno- and enzyme-linked immuno assays based on liver or spleen ferritin -- an evaluation of these techniques. (4) Serum ferritin concentrations in normal subjects -- definition of normality -- relationship between storage iron and serum ferritin concentrations -- changes during development from birth to old age -- iron deficiency -- variability of serum ferritin concentration -- evaluation of use of ferritin assay for assessment of storage iron levels. (5) Serum ferritin concentrations in disease -- hemochromatosis -- secondary iron overload -- liver damage -- infection and chronic disease -- cancer. (6) Assay of serum ferritin with antibodies to ferritins other than liver or spleen -- ferritinemia and cancer. (7) Properties of serum ferritin -- molecular weight -- iron content -- isoelectric focusing patterns -- carbohydrate content -- immunological properties. (8) Physiology of circulating ferritin -- release of ferritin from tissues -- origin of circulating ferritin -- clearance from the plasma -- iron and protein turnover. (9) Summary -- factors influencing serum ferritin concentrations and clinical use of ferritin estimations.
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PMID:Serum ferritin. 37 39

The main interest in idiopathic hemochromatosis (IH) currently centers more and more on early detection of the basic pathogenetic mechanisms of the disease, and on the prevention of organ lesions rather than therapy of the late syndrome. An understanding of the pathophysiology of this inborn error of iron metabolism, which is briefly outlined, enables the physician to motivate a still healthy potential IH patient for the simple but life-long therapeutic regimen (phlebotomy). The possible organ lesions of IH are briefly mentioned, and early recognition of arthropathy as a far from exceptional first symptom of the disease is emphasized. With regard to the detection of the latent disease, the practical value of liver biopsy, serum iron, the still debated serum ferritin, and the desferrioxamine test are discussed. Personal experience with a new and sensitive test for the screening of relatives, the cobalt absorption/excretion test, is also presented. After the recent clarification of the mode of inheritance of IH (autosomal recessive), the question arises whether heterozygote individuals, who obviously exhibit increased iron absorption, augmented transferrin saturation and an increased hepatic iron content, should also be treated prophylactically.
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PMID:[Idiopathic hemochromatosis: current problems in diagnosis and therapy]. 44 15

To determine whether a correlation exists between the biochemical expression of hemochromatosis and the HLA genotype, we studied 174 family members of 32 persons with the disease. Persons who shared both HLA haplotypes with the proband (and presumably having two hemochromatosis alleles) differed significantly from those who shared only one haplotype (and presumably having one hemochromatosis allele) in terms of serum iron (P less than 0.001 for both sexes), unsaturated iron-binding capacity (P less than 0.01 for female and P less than 0.0001 for male subjects) and serum ferritin (P less than 0.0001 for female and P less than 0.00001 for male subjects). The only significant difference between relatives having one hemochromatosis allele and age and sex-matched controls was related to serum ferritin values in male subjects (P less than 0.05, despite considerable overlap). In our hands, serum ferritin was the best indicator of disordered iron metabolism and was elevated among most homozygous but among few heterozygous family members.
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PMID:Serum ferritin as a possible marker of the hemochromatosis allele. 44 73

Rare cases of hemochromatosis have been reported in patients who underwent prolonged oral iron therapy for hemolytic anemia or prolonged self-treatment with iron pills. A proportionately large segment of the South African Bantu tribe, who ingest large quantities of an alcoholic beverage brewed in iron pots, are found to have the disease. Reports of health fadists developing hemochromatosis due to excessive dietary iron intake, however, are extremely rare. This report presents clinical considerations and pathologic findings in a compulsive health fadist who consumed large numbers of vitamins containing iron. Clinical findings included the development and progression of cirrhosis of the liver, bronzing of the skin, and diabetes mellitus, all consistent with a diagnosis of hemochromatosis. Light microscopy of liver biopsies taken late in the course of the disease revealed a massive buildup of iron in the hepatocytes, less in the Kupffer cells, and sparse deposition in the epithelial cells of the bile duct. Minimal periportal fibrosis was noted. Electron microscopy showed numerous pleomorphic siderosomes with varying degrees of crystallization and ferritin attached at uniform intervals to the membranes of residual bodies. Abundant free ferritin was observed in most cells. The aggregated and membrane-associated ferritin was verified by non-dispersive x-ray analysis. An additional finding, noted only by electron microscopy, was the presence of many fat-storing cells of Ito, which are thought to be involved in the onset of fibrosis.
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PMID:Hemochromatosis caused by excessive vitamin iron intake. 47 11

A Hungarian family with four heterozygotes for Hb Lepore Washington is described. One, a 43-year-old male, had high levels of serum iron, saturated iron-binding capacity, and ferritin, and normal levels of folic acid and vitamin B12. Liver biopsy showed slight cirrhosis and marked iron deposition in parenchymal cells and in cells of the reticuloendothelial system. Heavy iron deposition was also found in the bone marrow. The patient is not an alcoholic and has no disease that requires blood transfusion. The hemochromatosis thus seems to be of idiopathic nature.
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PMID:Hemoglobin Lepore Washington and hemochromatosis in a Hungarian patient. 47 79

The relationship between serum ferritin and duodenal ferritin was examined in normal subjects and in patients with iron deficiency, secondary iron overload, or idiopathic hemochromatosis (IHC). A positive correlation between serum ferritin and duodenal ferritin concentrations was found in all groups. In the iron-overload conditions, duodenal ferritin concentration was lower at all levels of serum ferritin in comparison with normal and iron-deficient subjects. Patients with secondary iron overload did not differ from those with IHC, which indicates that any decrease in duodenal ferritin concentration was secondary to the excess body iron stores. Purified duodenal ferritin from normal subjects and patients with iron-overload conditions showed the same two distinct isoferritins by isoelectric focusing. After the oral administration of iron, two additional isoferritins were detected. These resembled the major isoferritins of liver.
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PMID:Duodenal ferritin content and structure: relationship with body iron stores in man. 66 70

The value of tests for the detection of body iron overload was investigated in 8 patients with clinically manifest primary hemochromatosis, 12 patients with cirrhosis and iron overload and 20 patients with liver disease and low or normal iron stores. Iron overload was defined as the presence of stainable iron in more than 50% of hepatocytes in a liver biopsy specimen. The percentages of patients with a true-positive (abnormal) or true-negative (normal) result were: serum iron concentration 65%, transferin saturation 85%, serum ferritin concentration 78%, serum ferritin:serum glutamic oxaloacetic transaminase (SGOT) index 78%, percent iron absorption 58%, percent iron absorption in relation to serum ferritin concentration 80% and percent iron absorption in relation to serum ferritin:SGOT index 93%. The calculated predictive value of a normal test result for the exclusion of iron overload in patients with liver disease, a group with an assumed prevalence of iron overload of 10%, was 98% to 99% for transferrin saturation and serum ferritin concentration used alone and 100% for these measures used together; the predictive value of an abnormal result for the diagnosis of iron overload was less than 50% for all of the above measures used alone or in combination. Hence, in patients with an increased serum ferritin concentration or transferrin saturation, or both, determination of the hepatocellular iron content of a specimen from a percutaneous liver biopsy is required for the diagnosis of iron overload.
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PMID:Diagnostic efficacy of tests for the detection of iron overload in chronic liver disease. 67 27


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