UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
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The iron content of the body is normally tightly controlled by regulation of iron absorption. In hereditary hemochromatosis, mutation of an HLA class 1 gene, designated HFE, results in excessive iron absorption. Over many years, accumulating iron produces tissue damage, most notably cirrhosis, cardiomyopathy, diabetes, and arthropathies. Hereditary hemochromatosis is the most common hereditary disease of Northern Europeans with a prevalence of approximately 5 per 1000. The most sensitive screening test for hemochromatosis is saturation of the transferrin with iron; a fasting value greater than 50% is strongly suggestive of the disease. Confirmation of increased iron storage can be achieved most readily by serial phlebotomy. We do not regard liver biopsy to be indicated, except in unusual circumstances. Early diagnosis and treatment by phlebotomy before tissue damage has occurred is essential, because life span seems to be normal in treated patients but markedly shortened in those who are not. Therefore, genetic counseling with evaluation of first-degree relatives is mandatory.
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PMID:New developments in hereditary hemochromatosis. 1052 53

Hereditary hemochromatosis (HHC) is one of the most common inherited disorders in the Caucasian population. Diagnosis usually made after an elevation in ferritin and serum transferrin saturation is noted, often accompanied by asymptomatic hepatomegaly. Diagnosis is confirmed by genetic testing or liver biopsy. Damage to organs is due to excessive intestinal iron, which is transported to and then deposited in the liver parenchyma, and the heart, skin, and endocrine organs, causing skin pigmentation, development of cirrhosis and hepatic carcinoma, diabetes and endocrine failure, and heart failure. Bony changes can be manifested by arthritis, often in non-weight-bearing joints. The treatment of HHC is phlebotomy, which depletes iron stores. When diagnosis is made before organ damage occurs, treatment can prevent manifestations of the disease. Skin pigmentation and some cardiac damage may reverse on depletion of iron stores, but liver and endocrine damage is rarely reversible. Arthropathy is also not reversible, and often continues to progress even with effective treatment. When hemochromatosis is diagnosed, all first degree relatives of the patient should undergo genetic testing. With early detection and treatment this can be a manageable chronic disease. If undetected, it is potentially fatal.
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PMID:Hereditary hemochromatosis: diagnosis and treatment in primary care. 1054 25

We studied peripheral blood erythrocyte parameters and HFE genotypes in 94 hemochromatosis probands and 132 white, normal control subjects. Mean red blood cell counts in probands and control subjects were not significantly different. However, mean values of hemoglobin, hematocrit, mean corpuscular volume (MCV), mean corpuscular hemoglobin (MCH), and mean corpuscular hemoglobin concentration (MCHC) were significantly higher in C282Y/C282Y probands (n = 60) than in wild-type control subjects (n = 65). Probands with other HFE genotypes also had increased mean erythrocyte parameters (other than red blood cell count). Peripheral blood smears prepared before therapeutic phlebotomy revealed that erythrocytes in many probands had increased diameters and were well filled with hemoglobin. Erythrocyte parameters were similar in C282Y/C282Y probands with and without hepatomegaly, elevated serum concentrations of hepatic enzymes, hepatic cirrhosis, diabetes mellitus, arthropathy, or hypogonadism. Among C282Y/C282Y probands, significantly greater values of MCV (but not other erythrocyte parameters) occurred among those who had transferrin saturation values of 75% or greater or iron overload at diagnosis. After iron depletion, the mean MCV, MCH, and MCHC values of C282Y/C282Y probands decreased but remained significantly greater than values in wild-type control subjects. Mean values of prephlebotomy MCH and MCHC concentrations were lower in HLA-A3-positive than in HLA-A3-negative C282Y/C282Y probands. We conclude that increased values of mean hemoglobin, hematocrit, MCV, MCH, and MCHC in hemochromatosis probands are caused primarily by increased iron uptake and hemoglobin synthesis by immature erythroid cells. Mechanisms of iron uptake by erythrocytes that could explain these results are discussed.
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PMID:Peripheral blood erythrocyte parameters in hemochromatosis: evidence for increased erythrocyte hemoglobin content. 1063

The authors report the prevalence and severity of endocrine complications in a cohort of 115 patients suffering form genetic hemochromatosis and followed since two decades. Already 40% of them had developed diabetes at the time of diagnosis of hemochromatosis, which was made at the age of 50 +/- 12 years (m +/- SD). Hypogonadism was evidenced in 42% of the patients. In most of them, it was considered as secondary to pituitary lesions as assessed by GnRH tests. No other endocrine complications, in particular thyroid disease, were evidenced during follow up. On the other hand, it was also of interest to note that liver cirrhosis was observed in 52% of the patients at the time of hemochromatosis diagnosis. A relationship between cirrhosis, diabetes and hypogonadism was also assessed in these patients. We conclude to the still high prevalence of endocrine complications in genetic hemochromatosis.
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PMID:[Endocrine complications of genetic hemochromatosis]. 1068 6

To assess the prevalence of mutations in the HFE (hemochromatosis) gene in unselected male patients with type 2 diabetes, we examined 220 white men without known diabetes and 220 age-matched white men with type 2 diabetes for mutations in the HFE gene. Nucleotide 845 (C282Y) and 187(H63D) alleles were amplified by polymerase chain reaction (PCR) with lymphocyte DNA. The PCR products were analyzed by restriction enzyme digestion. One of the 220 patients (0.45%) with diabetes was homozygous for the HFE 845A (C282Y) mutation and 25 (11.3%) were heterozygous for the same mutation, of whom 3 (1.3%) were compound heterozygotes also carrying the HFE 187G (H63D) mutation. These frequencies did not differ significantly from the control population without diabetes. There is no evidence that HFE mutations are found in excess in unselected male patients with type 2 diabetes, and there is no indication for a population-based search for an excess of these alleles in type 2 diabetes.
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PMID:Prevalence of HFE (hemochromatosis gene) mutations in unselected male patients with type 2 diabetes. 1069 62

Genetic hemochromatosis (GH) is associated with two mutations of the HFE gene (Cys282Tyr and His63Asp). Heterozygosity for GH is associated with a mild increase in iron metabolism parameters, and increased iron stores are associated with abnormal glucose tolerance and decreased insulin sensitivity in the general population. We have previously shown that the frequency of the two HFE mutations is not increased in patients with type 2 diabetes. However, to assess whether the presence of HFE mutations modulates the clinical presentation of type 2 diabetes, we studied the clinical characteristics and iron metabolism indexes according to the presence of the two mutations in 266 patients with type 2 diabetes. The Cys282Tyr mutation and the His63Asp mutation were present in 9. 8% and 26% of the patients, respectively. Serum iron, transferrin saturation and ferritin concentrations were significantly increased in patients expressing either HFE mutations, compared to those without any mutation. There was no difference in the clinical characteristics in the two groups except that obesity was significantly less frequent in the patients with at least one mutation than in those without any mutation (27.6% vs 42.8%, p=0.02). This finding suggests that, in the absence of obesity, HFE mutations, through the insulin resistance associated with the increase in iron stores, may contribute to the onset of type 2 diabetes.
Diabetes Metab 2000 Feb
PMID:Clinical characteristics of type 2 diabetes in patients with mutations of HFE. 1070 6

Genetic hemochromatosis is an autosomal recessive disease, characterized by an increased iron absorption, leading to progressive iron overload. The fully expressed phenotype comprises fatigue, skin pigmentation, liver disease with hepatomegaly, cirrhosis and hepatocellular carcinoma, and diabetes. Arthralgias are frequent, cardiopathy or impotence may occur. This presentation is now unfrequent with earlier diagnosis, and patients are often asymptomatic--with only biochemical expression--or pauci-symptomatic (mild fatigue, arthralgias or increased transaminases). Transferrin saturation is always increased. Serum ferritin is proportional to iron burden. Diagnosis is now easy, since most patients are homozygote for the C282Y mutation of the HFE gene. Liver biopsy can be useful to quantify iron overload and assess liver fibrosis. The disease can be lethal due to liver disease, carcinoma or heart disease, but life expectancy goes to normal if patients are treated before the occurrence of cirrhosis. Treatment relies on regular venesections. Familial screening is essential.
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PMID:[Diagnosis and treatment of genetic hemochromatosis]. 1086 97

Juvenile hemochromatosis is a rare genetic disorder that causes iron overload. Clinical complications, which include liver cirrhosis, heart failure, hypogonadotropic hypogonadism and diabetes, appear earlier and are more severe than in HFE-related hemochromatosis. This disorder, therefore, requires an aggressive therapeutic approach to achieve iron depletion. We report here the case of a young Italian female with juvenile hemochromatosis who was unable to tolerate frequent phlebotomy because of coexistent ss-thalassemia trait. The patient was successfully iron-depleted by combining phlebotomy with recombinant human erythropoietin.
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PMID:Juvenile hemochromatosis associated with B-thalassemia treated by phlebotomy and recombinant human erythropoietin. 1094 34

Genetic hemochromatosis (GH) is a late-onset, autosomal recessive disorder. The majority of those at risk from iron overload and its clinical consequences may be detected by a simple genetic test. Furthermore, treatment by phlebotomy, if instituted early, removes excess iron and prevents the complications of iron overload which include arthralgia, diabetes, and cirrhosis of the liver. GH seems to be an obvious candidate for inclusion in national screening programs. However, important questions remain concerning the proportion of individuals with the high-risk genotype who eventually show clinical manifestations of iron overload and the significance of heterozygosity for haemochromatosis in terms of morbidity. Until these questions are resolved, the introduction of widespread genetic screening cannot be justified.
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PMID:Early detection of genetic hemochromatosis: should all young adults be offered the genetic test? 1095 63

Genetic testing for the C282Y mutation of the HFE gene has been a major advance in the diagnosis of hereditary hemochromatosis. In most studies, more than 90% of typical hemochromatosis patients are homozygous for the C282Y mutation. Large-scale population screening studies in predominantly Caucasian populations have demonstrated a high prevalence of C282Y homozygotes of approximately 1 in 300. Despite this high prevalence by genetic testing, the clinical diagnosis of hemochromatosis and mortality from the disease are much less common. One possibility is the presence of many undiagnosed cases with nonspecific symptoms, and deaths occurring that are attributed to liver disease, diabetes, and heart disease without the recognition of iron overload secondary to hemochromatosis. Another possibility is a high prevalence of nonexpressing homozygotes. In this review, the available data on nonexpressing C282Y homozygotes is collected including information on pathogenesis, environmental interactions, and implications for population screening using genetic testing.
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PMID:Nonexpressing homozygotes for C282Y hemochromatosis: minority or majority of cases? 1100

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