UMLS:C0023890 - FACTA Search

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Query: UMLS:C0023890 (cirrhosis)
42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hereditary hemochromatosis (HH), an autosomal recessive disease of iron overload, is one of the most common inherited diseases. The candidate gene (HFE) for HH has been identified recently and a DNA-based test for the mutation is available. Treatment for HH patients with elevated iron stores include repeated phlebotomy. Left untreated, iron overload can lead to cirrhosis, organ failure, and a shortened life expectancy. In the past and present, blood collected for therapeutic purposes from patients with HH has been discarded. The aim of this article is to address whether blood collected from HH patients should be used for allogeneic transfusion in the future.
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PMID:Hemochromatosis, iron, and blood donation: a short review. 1537 12

Intrahepatic iron overload is commonly seen in chronic hepatitis C infection. High levels of intrahepatic iron may lead to accelerated liver injury and development of fibrosis and cirrhosis. This is frequently seen in hereditary hemochromatosis, which in most of the cases is caused by homozygous mutations in the HFE gene. In patients suffering from chronic hepatitis C, the presence of heterozygous HFE mutations associates with higher hepatic iron scores and advanced stages of fibrosis. HFE mutations must therefore be considered as important comorbidity factors in chronic hepatitis C infection.
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PMID:Iron, the HFE gene, and hepatitis C. 1546 55

Hereditary hemochromatosis (HH) is associated with an increased risk for hepatocellular carcinoma (HCC). The risk previously had been estimated to be as high as 200-fold increased. Recent studies suggest that the risk for HCC in HFE -associated HH may be much lower and occurs predominantly in patients with cirrhosis at the time of diagnosis. The risk for HCC also is increased among patients with African iron overload and possibly in other iron-loading disorders such as homozygous beta thalassemia. The greatly increased iron stores in the liver observed in these disorders can stimulate carcinogenesis via both direct and indirect pathways. The prevalence of HCC also appears to be higher among patients with end-stage liver disease undergoing liver transplantation. It is not clear whether mildly to moderately increased hepatic iron stores or HFE mutations are associated independently with an increased risk for HCC among patients with other types of liver disease. In this article, the incidence and prevalence of HCC in patients with HH and other liver diseases associated with iron overload are discussed as well as the possible mechanisms for the increased risk for hepatic carcinogenesis in these disorders.
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PMID:Iron, hemochromatosis, and hepatocellular carcinoma. 1550 7

Iron overload diseases are due to a progressive increase in total body iron stores that leads to deposition of iron in parenchymal organs and to subsequent damage to these organs. The commonest inherited form of iron overload is hereditary hemochromatosis (HH), an autosomal recessive disorder affecting the white population. Although in the western world and in northern Europe the majority of cases of HH are associated with an HFE gene mutation (C282Y and H63D), there are families with a familial iron overload disorder in whom neither the C282Y nor the H63D mutations were found. Recently, other forms of HH that are not related to HFE, but are due to mutations in genes coding iron transport proteins (ferroportin-1, TfR2, hepcidin) have been described. The clinical presentation of the disorder is highly variable, depending on the severity of iron overload. In fact, the inappropriate absorption and deposition of dietary iron may result in the development of hepatic and non-hepatic end-organ injury, leading to liver cirrhosis, hepatocellular carcinoma, diabetes, arthritis, skin pigmentation and cardiac diseases. HH and its sequelae are preventable with an early diagnosis and treatment. Patients with evidence of iron overload, a family history of HH or other risk factors should be screened by genotype testing for the HFE mutation. Nowadays, HH is recognized as being a complex genetic disease with probable significant environmental and genetic modifying factors, such as hepatitis C virus infection and alcohol abuse, and it has been shown that HFE mutations represent an independent risk factor for fibrosis and cirrhosis in chronic hepatitis C.
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PMID:[Iron overload disease: recent findings]. 1552 41

Hypogonadism, usually hypogonadotropic in origin, is the most common nondiabetic endocrinopathy in hereditary hemochromatosis (HH). Early studies, usually evaluating small numbers of patients with advanced HH, report prevalence rates of 10-100%. The clinical presentation of HH has changed in recent years as a result of increased awareness and screening. We assessed the prevalence of hypogonadism in a large group of patients with HH diagnosed in a single center over the past 20 yr, the period of follow-up spanning the time before and after widespread screening was introduced and the HFE gene was recognized. Abnormally low plasma testosterone levels, with low LH and FSH levels, were found in nine of 141 (6.4%) male patients tested. Eight of nine (89%) had associated hepatic cirrhosis; three of nine (33%) had diabetes. Inappropriately low LH and FSH levels were found in two of 38 females (5.2%) in whom the pituitary-gonadal axis could be assessed. This is the largest detailed study of hypogonadism reported in HH. The lower prevalence of hypogonadism compared with other reported series reflects the earlier diagnosis of HH in an unselected group of patients attending a single center. Patients with lesser degrees of hepatic siderosis at diagnosis are unlikely to develop hypogonadism.
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PMID:Hypogonadism in hereditary hemochromatosis. 1565 76

Hereditary haemochromatosis is a primary inherited disorder of iron metabolism leading to progressive iron loading of parenchymal cells of the liver and other organs with diverse clinical manifestations, including cirrhosis, diabetes and skin pigmentation. This chapter will focus on HFE-associated hereditary haemochromatosis, which accounts for approximately 90% of cases in Caucasian populations. Penetrance is incomplete, with variable clinical expression. The majority of cases demonstrate biochemical expression, but a much lower proportion develop advanced disease. Clinical disease--especially hepatic fibrosis--is related to the level of body iron stores, which is reflected primarily in the liver. The available evidence indicates that adequate screening and diagnostic strategies ensure that early case detection and treatment occur prior to the development of irreversible end-organ damage. The most cost-effective methods of early case detection are family (cascade) screening and evaluation of potential cases by primary care physicians with a high index of clinical suspicion.
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PMID:Role of early case detection by screening relatives of patients with HFE-associated hereditary haemochromatosis. 1573 86

Nonspherocytic hereditary anemias are occasionally accompanied by significant iron overload but the significance for the development of chronic liver disease is not clear. We described two cases of patients with chronic liver disease and severe iron overload due to chronic hereditary hemolysis. Both patients have had signs of liver cirrhosis and severe hemolysis since childhood. A hereditary pyruvate kinase deficiency (PKD) was discovered as the underlying reason for the hemolysis. Sequencing of the pyruvate kinase gene showed a mutation within exon 11. Liver histology in both patients revealed cirrhosis and a severe iron overload but primary hemochromatosis was excluded by HFE-gene analysis. An iron reduction therapy with desferrioxamine led to significant decrease of serum ferritin and sustained clinical improvement. PKD-induced hemolysis may cause severe iron overload even in the absence of HFE-genotype abnormalities. This secondary iron overload can lead to chronic liver disease and cirrhosis. Therefore, the iron metabolism of PKD patients has to be closely monitored and iron overload should be consequently treated.
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PMID:Liver cirrhosis as a consequence of iron overload caused by hereditary nonspherocytic hemolytic anemia. 1575 14

The hepatitis C virus (HCV) is a major cause of chronic liver disease worldwide, with approximately 170-200 million people infected. The HCV virus is transmitted by blood and blood products and such transmission occurs primarily through drug use by injection, sex with an infected partner and occupational exposure. The severity of the disease varies widely from mild chronic hepatitis to cirrhosis and hepatocellular carcinoma (HCC). Nowadays, the reference treatment is combination therapy of pegylated interferon and ribavirin, which is an inosine monophosphate dehydrogenase inhibitor and immunomodulator. Efficacy of treatment in our clinical trials is 87% in patients infected by HCV genotypes 2 or 3, whereas in patients infected by HCV genotype 1 response to treatment is 66%. The current combination treatment has significant side-effects and sometimes is poorly tolerated. HCV genotypes 2 or 3 can be treated with a lower dose of ribavirin and a shorter course of therapy, 24 weeks vs 48 weeks for patients with genotype 1. There is a growing consensus that acute control of HCV infection is associated with a vigorous intrahepatic antiviral CD4+ and CD8+ T-cell response, enhanced Th1 and natural killer activity. Pretreatment genotype and response to therapy measured at weeks 12 and 24 of treatment have been identified as key determinants in decisions about continuing treatment. Elevated serum ferritin levels and hepatic iron deposition as well as hepatic steatosis and high ALT levels with chronic hepatitis C are risk factors for HCC development. Heterozygosityfor the C282Y mutation in HFE contributes to iron accumulation and fibrosis progression in chronic hepatitis C. Ribavirin could cause dose-dependent reversible haemolytic anaemia, which can be managed with dose reductions or with administration of epoetin alpha at 40,000 IU once weekly without sacrificing the optimal dosing of ribavarin. Among patients who received ribavirin alone, serum ALT levels and necroinflammatory features of liver histology were improved, whereas symptoms, HCV RNA levels and hepatic fibrosis scores were not changed significantly from baseline. For HCV-HIV co-infected patients, treatment is given when blood CD4 counts are above 350/ml and before antiretroviral (ART) treatment is needed.
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PMID:Ribavirin in the treatment of hepatitis C. 1586 84

Genetic hemochromatosis (GH) is an iron overload disorder mainly due to the C282Y mutation of the HFE gene. The possibility of bone involvement was only recently recognized. The aims of this study were to assess bone mineral density (BMD) and bone remodeling in men with GH, and to examine the influence of iron overload. Thirty-eight men (mean age 47.2+/-9.4 years) with well-defined HFE-related GH were studied. They had an important iron overload with liver iron concentration to age ratio >2.5, no previous venesection therapy and were C282Y homozygotes (n=37) or compound C282Y/H63D heterozygote (n=1). BMD measured by DXA was 0.925+/-0.15 g/cm2 at the lumbar spine (LS) and 0.778+/-0.13 g/cm2 at the femoral neck (FN). Osteopenia (T-score<-1 SD) was observed in 78.9% of patients and osteoporosis (T-score<-2.5 SD) in 34.2%. Vitamin D levels were normal, and no 1-84 parathyroid hormone dysfunction was found. Hypogonadism was found in only 13.2% of patients. Patients with hypogonadism had lower LS BMD than eugonadal patients (0.788+/-0.16 and 0.954+/-0.14 g/cm2). Bone remodeling and parathyroid hormone levels were lower in patients with cirrhosis, but BMD values were similar to those in patients without cirrhosis. FN BMD appeared to fall with rising hepatic iron concentrations (r=-0.399). We conclude that there is significant bone loss in HFE-related hemochromatosis that cannot solely be explained by hypogonadism or cirrhosis. Further investigations are needed to determine the role of iron overload itself.
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PMID:Bone mineral density in men with genetic hemochromatosis and HFE gene mutation. 1592

Hereditary hemochromatosis is one of the most common autosomal recessive disorder among Caucasians since the genotype at risk for hemochromatosis accounts for 1:200-400 individuals of Northern European ancestry. The disease is characterized by an inappropriately increased intestinal iron absorption leading to early abnormalities of iron parameters followed by iron deposition in different organs. Excessive iron causes tissue damage and fibrosis, leading to organ failure. Clinical complications appear late in life and include liver cirrhosis, diabetes, cardiomyopathy, hypogonadism, arthropathy, skin pigmentation and susceptibility to liver cancer. Clinical symptoms develop only in homozygotes. Heterozy-gotes may show abnormalities of iron parameters, but are not clinically affected, unless carriers of other conditions which modify iron metabolism, such as chronic liver diseases, beta-thalassemia trait or other haemolytic anemias. The phenotypic expression of the disease is variable even within the same family, due to the effect of modifier genes or to environmental factors. Recent progress of genetics and molecular biology have shown that hemochromatosis is an heterogeneous disease, that may result from the inactivation of different genes. The identification of mutations of HFE and of other genes involved in the disease has allowed to develop molecular tests to support early diagnosis, allowing also to ameliorate the differential diagnosis with other iron loading disorders. In addition, the increased knowledge acquired from the study of hemochromatosis has contributed to clarify the pathophysiology of iron metabolism. For this reason hemochromatosis is considered a typical example of molecular medicine.
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PMID:Inherited hemochromatosis: from genetics to clinics. 1617 62

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