Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023890 (cirrhosis)
 42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Early erroneous diagnosis of rheumatic disease is common in subjects with arthropathy due to hereditary hemochromatosis. A 71-year-old male with chronic obstructive pulmonary disease and monoclonal gammopathy underwent hip replacement and was referred to our Department because of altered liver function tests. Test results were negative for hepatitis B surface antigen and hepatitis C virus, and positive for rheumatoid factor. A diagnosis of rheumatoid arthritis had been made on the basis of compatible joint involvement and laboratory data and steroid treatment prescribed. Since his serum ferritin was 3249 ng/mL, genetic testing for hereditary hemochromatosis was carried out and revealed homozygosity for Cys282Tyr mutation in the HFE gene. Liver biopsy disclosed cirrhosis compatible with hemochromatosis. Following a review of the patients' radiographs, the diagnosis of hemochromatosis arthropathy was made. Phlebotomies and family screening for hereditary hemochromatosis were done. The most logical explanation for the positive rheumatoid factor result in this subject are his age and the presence of two chronic diseases involving long-standing antigenic stimulation and monoclonal gammopathy of uncertain significance. It is important to distinguish rheumatoid arthritis from hemochromatosis arthropathy for several reasons: patients with hereditary hemochromatosis do not require corticosteroid treatment; in case of erroneous diagnosis of rheumatoid arthritis, phlebotomy is not started early, and familial genetic counseling is not considered. In male subjects with positive rheumatoid factor and joint and liver disease, hereditary hemochromatosis should be considered. More liberal use of genetic testing is justified in such cases.
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PMID:Hereditary hemochromatosis masquerading as rheumatoid arthritis. 1168 50

Hereditary haemochromatosis is common, affecting one in 200 Australians of Anglo-Celtic descent; it results in iron overload affecting many organs, including the liver, heart, endocrine and musculoskeletal system. Diagnosis requires a high index of suspicion, as presenting symptoms and signs may be non-specific. Once suspected, hereditary haemochromatosis can be readily diagnosed by measurement of serum transferrin saturation and ferritin level, followed by genetic assessment. Homozygosity for the C282Y mutation in the HFE gene accounts for most cases in people of Anglo-Celtic descent in Australia; a genetic test for this mutation is widely available. Liver biopsy is advocated only in selected individuals at risk of cirrhosis or with an unclear diagnosis. Therapeutic phlebotomy remains the treatment and, if instituted early, will prevent many of the organ-specific complications.
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PMID:Hereditary haemochromatosis: detection and management. 1170 Aug 35

To identify a new marker of expression of disease, independent of HFE genotype in patients with hereditary haemochromatosis (HHC), the total peripheral blood lymphocyte counts were analysed according to iron status in two groups of subjects with HFE mutations. The groups consisted of 38 homozygotes for C282Y, and 107 heterozygotes for the C282Y or compound heterozygotes for C282Y and H63D. For control purposes, total lymphocyte counts and iron status were also examined in 20 index patients with African dietary iron overload, a condition not associated with HFE mutations, and in 144 members of their families and communities. Mean lymphocyte numbers were lower in C282Y homozygous HHC index subjects with cirrhosis and higher iron stores than in those without cirrhosis and with lower iron burdens [(1.65 +/- 0.43) x 10(6)/mL vs. (2.27 +/- 0.49) x 10(6)/mL; p = 0.008]. Similarly, mean lymphocyte counts were significantly lower in C282Y heterozygotes and C282Y/H63D compound heterozygotes with iron overload and increased serum ferritin concentrations compared to those with normal serum ferritin concentrations (p < 0.05). Statistically significant negative correlations were found, in males, between lymphocyte counts and the total body iron stores, either in C282Y homozygous HHC patients (p = 0.031 in a multiple regression model dependent on age) and in C282Y heterozygotes or C282Y/H63D compound heterozygotes with iron overload (p = 0.029 in a simple linear model). In contrast, lymphocyte counts increased with increasing serum ferritin concentrations among the index subjects with African iron overload (r = 0.324, not statistically significant) and among the members of their families and communities (r = 0.170, p = 0.042). These results suggest that a lower peripheral blood lymphocyte count is associated with a greater degree of iron loading in HFE haemochromatosis but not in African iron overload, and they support the notion that the lymphocyte count may serve as a marker of a non-HFE gene that influences the clinical expression of HFE haemochromatosis.
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PMID:Clinical and genetic heterogeneity in hereditary haemochromatosis: association between lymphocyte counts and expression of iron overload. 1172 99

Hereditary hemochromatosis is the most common inherited single-gene disorder in people of northern European descent. It is characterized by increased intestinal absorption of iron, with deposition of the iron in multiple organs. Previously, the classic description was combined diabetes mellitus, cutaneous hyperpigmentation and cirrhosis. Increasingly, however, hereditary hemochromatosis is being diagnosed at an earlier, less symptomatic stage. The diagnosis is based on a combination of clinical, laboratory and pathologic findings, including elevated serum transferrin saturation. Life expectancy is usually normal if phlebotomy is initiated before the development of cirrhosis or diabetes mellitus. Hereditary hemochromatosis is associated with mutations in the HFE gene. Between 60 and 93 percent of patients with the disorder are homozygous for a mutation designated C282Y. The HFE gene test is useful in confirming the diagnosis of hereditary hemochromatosis, screening adult family members of patients with HFE mutations and resolving ambiguities concerning iron overload.
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PMID:Recognition and management of hereditary hemochromatosis. 1189 57

A 14-year-old girl demonstrated increased iron concentration and transferrin saturation, suggesting iron overload of unknown origin. Liver biopsy showed no fibrosis or hepatocytic atrophia. Nevertheless, Prussian blue reaction for histochemical detection of iron demonstrated very weak positive granules in a few hepatocytes on the periphery of hepatic lobules in close connection to bile capillaries. This very early stage of hemochromatosis was confirmed by TEM and EELS for iron accumulation inside hepatocytic lysosomes and residual bodies. Such siderosomes were scarce in number and iron content, compared to a case of manifested hemochromatosis and liver cirrhosis (Jonas L, Fulda G, Salemeh T, et al. Ultrastruct Pathol. 2001; 25: 111-118.). Liver iron concentration as measured by inductively coupled plasma-mass spectrometry (ICP-MS) and atomic absorption spectrometry (AAS) yielded 2.005 mg/g tissue dry weight, which was considered not significantly increased. In the absence of known causes for secondary iron overload, the early diagnosis was evidenced by genotyping, revealed homozygosity for the HFE gene C282Y mutation, demonstrating the presence of hereditary hemochromatosis.
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PMID:Hereditary hemochromatosis of a young girl: detection of early iron deposition in liver cell lysosomes using transmission electron microscopy and electron energy loss spectroscopy. 1202 55

Juvenile hemochromatosis (JH) is a characteristic form of genetic hemochromatosis with an early onset and severe clinical course leading to death if iron depletion treatment is not timely applied. Clinical complications include liver cirrhosis, heart failure, hypogonadotropic hypogonadism, and diabetes. In the present study we report the first case of JH described in Spain. Biochemical and genetic characteristics of the patient and relatives (parents and siblings) were investigated. No individual presented either the mutation at position 845 of the HFE gene or at position 750 of the TFR2 gene, associated with other types of hemochromatosis. Nevertheless, some individuals were homozygous for the mutation at position 187 of HFE. The hypothetic region of association with JH, located at chromosome 1q, was also investigated and results show that the patient presented a unique genotypic combination in 1q. The only brother with heavy iron deposits in hepatocytes was found to be heterozygous for the JH-associated region and homozygous for the HFE187 gene, suggesting a synergistic effect between both hemochromatosis-associated genes.
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PMID:Juvenile hemochromatosis in a Spanish family. 1248 7

There is conflicting evidence regarding inheritance of hemochromatosis gene (HFE) mutations and influence of hepatic iron deposition as cofactors for development of fibrosis in patients with nonalcoholic steatohepatitis (NASH). We studied hepatic iron content (Perls' stain grade), frequency of HFE mutations, and serum iron indices in 93 patients with NASH from a multiethnic background; 59 (63%) were of Anglo-Celtic origin. Data on C282Y mutations were available for all 93 patients and on H63D for 69 patients. Respective controls were 206 (for C282Y, 141 [69%] of whom were Anglo-Celtic) and 180 (for H63D) blood donors. Hyperferritinemia was present in 38 patients (40%) with NASH, but transferrin saturation was increased (>55%) in only 5 (5%). Liver biopsy specimens showed advanced fibrosis in 31 (33%) (cirrhosis in 20%). Altogether, 9 biopsy specimens (10%) showed increased iron: 7 (8%) with grade 2 and 2 (2%) with grade 3 iron staining. Only 1 biopsy specimen with increased iron showed advanced fibrosis. The frequency of C282Y heterozygosity was increased in Anglo-Celtic patients with NASH compared with ethnic blood donor controls (22% vs. 9.2%; P =.035); there were no C282Y homozygotes in the NASH cohort. Although there was a trend toward higher serum ferritin levels among C282Y heterozygotes with NASH, there were no differences in histologic grades of steatosis, inflammation, or fibrosis between individuals with and without C282Y. The frequencies of compound C282Y/H63D heterozygotes (n = 1) or H63D heterozygotes (n = 10) were not increased in NASH. Multivariate analysis identified female sex, diabetes mellitus, and more severe liver inflammation but not HFE mutations, serum ferritin, iron saturation, or hepatic iron staining as independent predictors of hepatic fibrosis. In conclusion, hepatic iron is not a factor linked to hepatic fibrogenesis in patients with NASH. HFE mutations do not confer an additional risk of hepatic fibrosis in this disorder.
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PMID:HFE mutations, hepatic iron, and fibrosis: ethnic-specific association of NASH with C282Y but not with fibrotic severity. 1208 58

We studied hepatic iron overload (HIOL) patterns in 32 patients who underwent liver biopsies and testing for HFE mutations (C282Y, H63D). Iron-stained biopsy specimens were examined for patterns of iron deposits: hereditary hemochromatosis (HH) pattern or non-HH pattern. Visual iron grade based on amount of cellular and lobular iron was evaluated. We found the HH pattern in 17 biopsy specimens (53%) and the non-HH pattern in 6 specimens (19%). HH with superimposed non-HH was noted in 9 cases (28%). In 25 patients with HFE mutations, HH alone and combined with non-HH patterns was noted in 22 specimens (88%). Visual iron grade correlated approximately with the hepatic iron index. Heavy HIOL was noted in C282Y homozygotes and 1 patient with cirrhosis without either HFE mutation. Mild steatohepatitis was found in 21 specimens (66%); it was associated with the non-HH pattern in 80% (12/15) and the HH pattern in 62% (16/26) of cases. Liver biopsy can identify pattern and grade of HIOL and associated pathology for diagnosis and management of patients with abnormal iron studies and elevated liver function test results. Genetic tests for HFE mutations and liver biopsies are complementary in the workup of these patients.
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PMID:Role of liver biopsy in the diagnosis of hepatic iron overload in the era of genetic testing. 1210 59

Hereditary hemochromatosis (hh, type 1 hemochromatosis) is an autosomal recessive trait characterized by hyperabsorption of dietary iron. The disease trait occurs in approximately five per thousand Caucasians of northern European descent. The causative gene, designated HFE, was isolated and characterized in 1996; most individuals with hh are homozygous for a mutation resulting in a change from cysteine to tyrosine at residue 282 of the HFE protein (C282Y). Wild-type HFE protein binds to the transferrin receptor, and by an undefined mechanism the enterocyte is "programmed" to absorb an amount of dietary iron precisely matched to the body's needs. The C282Y mutant protein is not expressed on the cell surface and does not bind to the transferrin receptor; the result is an enterocyte programmed to absorb slightly more iron than required. Most individuals with hh display a common laboratory phenotype, an elevated transferrin saturation. Iron stores in excess of normal eventually occur in most men and some women. The prevalence of organ damage due to iron overload, however, remains a controversial issue. Published estimates range from less than 1% to "nearly all." The main reason for this discrepancy has been ascertainment bias. Retrospective studies have been biased in favor of individuals with morbid complications of hh, whereas screening studies of groups such as blood donors generally include only healthy subjects. We focus here on a review of studies that have attempted to avoid ascertainment bias. If biopsy-proven hepatic fibrosis and/or cirrhosis is employed as the single criterion for disease-related morbidity, clinical penetrance of hh occurs in 4% to 25% of homozygotes. This range, although narrower than in biased studies, is still wide and requires clarification. A large-scale population-based study has been sponsored by the National Institutes of Health to address this issue. Until results become available, the pragmatic approach is to continue to screen for hemochromatosis in the primary care setting and to maintain serum ferritin values at approximately 100 micro g/L or lower with phlebotomy therapy.
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PMID:Hereditary hemochromatosis. 1238 98

Iron overload is common in rural sub-Saharan African populations that have the custom of drinking a traditional fermented beverage with high iron content. As with both excessive alcohol exposure and HFE hemochromatosis, hepatic portal fibrosis and micronodular cirrhosis are prominent sequelae of African iron overload. Two observations are therefore important in characterizing iron overload in Africa. First, the hepatic iron concentrations associated with African iron overload often far exceed those seen in alcoholic liver disease and histologic changes of alcohol effect are almost always absent. Second, the pattern of iron accumulation in African dietary iron is prominent in both macrophages and hepatic parenchymal cells; this pattern is in contrast to HFE homochromatosis, which is marked by predominantly parenchymal iron-loading. For a long time, it was thought that African iron overload was purely dietary in nature, that increased iron and alcohol in the diet could fully explain markedly elevated tissue iron levels sometimes seen with this condition. Recent studies of pedigrees suggest that, in addition to high dietary iron content, a genetic defect may also be implicated in iron overload in Africans. These studies indicate that the possible defect is different from mutations in the HFE gene frequently found in Caucasians with iron overload, but the putative gene has not been identified. Recent studies also indicate that non-HFE iron overload occurs in African-Americans, but the prevalence and possible genetic basis is yet to be determined.
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PMID:African iron overload. 1238 1


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