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)

Hemochromatosis is a disorder characterized by the association of portal cirrhosis with deposition of excess amounts of iron in the parenchymal cells of many organs. Arthralgia and arthritis occur in about 50% of patients. The role of the radiologist is often significant in the recognition of this condition because hemochromatosis may be unsuspected clinically since the hepatic cirrhosis is frequently inactive at the time the arthritis develops. The possibility of hemochromatosis should be considered when the characteristic involvement of the metacarpophalangeal, radiocarpal, and proximal interphalangeal joints of the hand and wrist is present. In addition, articular and fibrocartilage calcification is often noted, particularly in the knee, triangular cartilage of the wrist, hip, elbow, symphysis pubis, and shoulder. Although localized chondrocalcinosis may be seen in association with many disorders, as well as in asymptomatic elderly persons, generalized chondrocalcinosis is a significant finding and is commonly associated with hemochromatosis. Recognition of the typical distribution of the arthropathy plus its characteristic roentgenographic features should aid in the identification of patients with the disorder who do not demonstrate the typical clinical features of hemochromatosis.
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PMID:Hemochromatosis: a disease often silent but not invisible. 17 3

Since an intestinal absorptive interaction between iron and zinc has been described in animals and humans, the possibility of increased accumulation of zinc as well as iron in the liver was studied in patients with hereditary hemochromatosis. Hepatic zinc was determined by atomic absorption spectrophotometry in liver biopsy specimens from 21 homozygotes for hemochromatosis, 21 normal liver samples from autopsies, and 15 cases of cirrhosis unrelated to iron overload. Mean hepatic zinc concentrations in the three groups were compared by one-way analysis of variance. Hemochromatosis patients had hepatic iron determinations by atomic absorption spectrophotometry, and iron absorption studies using 59Fe and total body counting had been previously documented in 18 of the 21 hemochromatosis patients. The mean hepatic zinc was significantly increased at 25.9 +/- 26.7 mumol/g (dry weight) in the hemochromatosis patients, as compared to 4.99 +/- 1.51 mumol/g in the control patients (p less than 0.05), and 2.13 +/- 1.13 mumol/g in the cirrhosis patients without iron overload (p less than 0.05). Hepatic zinc concentration was elevated in hemochromatosis patients who had either normal histology, fibrosis, and cirrhosis. Hepatic zinc concentration was not directly related to patient age, hepatic iron concentration, or iron absorption. In conclusion, hepatic zinc was increased approximately fivefold in patients with hemochromatosis. This finding suggests the concomitant hepatic accumulation of zinc as well as iron in this disorder, possibly by means of increased intestinal absorption of zinc and hepatic sequestration.
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PMID:Hepatic zinc in hemochromatosis. 204 Jan 1

Hemochromatosis, or primary iron overload, is a variably expressed genetic metabolic disorder greatly modified by sex, age, diet, and alcohol consumption. Although a diagnosis has been made at the bedside by careful documentation of the slow resolution of subcutaneous iron pigment, clinical diagnosis is frequently overlooked, and even autopsy may fail to reveal hemochromatosis as the cause for cirrhosis. Genetic linkage studies have confirmed the extremely high prevalence of this disorder. Untreated patients may succumb to sepsis caused by organisms such as Vibrio vulnificus, Yersinia species, and others whose virulence is altered by iron availability.
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PMID:Hemochromatosis and infection: alcohol and iron, oysters and sepsis. 248 33

Hemochromatosis is a disease in which the inappropriate absorption of iron over 30-40 yr results in tissue iron overload and the development of cirrhosis of the liver, diabetes, hypogonadism, arthropathy, and skin pigmentation. We present an infant who died at 2 days of age, and who was found to have massive iron overload in the liver. This case is consistent with a rare condition that has been called neonatal hemochromatosis. This disease is discussed in the context of an overview of iron metabolism and adult hemochromatosis.
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PMID:Neonatal hemochromatosis: a case and review of the literature. 327 60

The immediate cause of death were studied in 122 patients with cirrhosis of liver, out of 236 patients with cirrhosis of liver under follow-up care observation in the course of 12 years. The average age of the deceased is 53,8 years, with a ratio males: females--2,3:1. The deceased were grouped according to the type of liver cirrhosis as follows: micronodular--63,1%, macronodular--15,6%, mixed--9,8%, primary biliary--6,6%, hemochromatosis--, 4,1% and the disease of Wilson--Konovalov--0,81%. Decompensated stage of cirrhosis was established in 77,9% from the deceased at the last examination and compensated--21,1%. Immediate cause for the death in the summed up group cirrhoses is: hepatic coma in 42,2%, acute hemorrhage with or without coma--32,3%, other causes--18,9%. Degeneration of liver cirrhosis into cancer was established in 9,01%. Cirrhosis degenerated more frequently in males. Hemochromatosis and micronodular cirrhosis are the ones that most frequently degenerated.
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PMID:[Causes of death in liver cirrhosis patients seen on an outpatient basis]. 402 6

Hemochromatosis is a syndrome which, when fully expressed, is manifested by melanoderma , diabetes mellitus, and liver cirrhosis, with iron overload involving parenchymal and reticuloendothelial cells in many organ systems. This clinical presentation may arise as a consequence of either hereditary or acquired abnormalities of iron overload, although the mechanisms are quite different. In hereditary hemochromatosis (also known as primary, or idiopathic, hemochromatosis), increased intestinal iron absorption leads to excessive accumulations of iron, throughout the body, particularly in parenchymal cells. In secondary forms of iron overload including transfusional hemosiderosis, alcoholic cirrhosis, thalassemia, sideroblastic anemia, and porphyria cutanea tarda, iron accumulates in the reticuloendothelial system initially, but with increasing amounts of total body iron, excessive iron deposits eventually accumulate in parenchymal cells throughout the body producing a picture indistinguishable from hereditary hemochromatosis. In this article, the course, prognosis, and therapy of iron overload will be reviewed in detail. Clinical and experimental data concerning the pathogenesis of the different forms of iron overload will be examined critically. In particular, information relating to possible abnormalities of reticuloendothelial function, intestinal mucosal iron transport, and alterations in serum and tissue isoferritin patterns in hereditary hemochromatosis will be analyzed, and possible directions for future research will be suggested. The mode of inheritance and linkage with the major histocompatibility (HLA) complex will be discussed. Theories on the pathogenesis of tissue damage by excess iron will be evaluated. Methods for measuring the extent of iron overload in clinical practice will be described, including measurements of serum iron, serum ferritin, iron absorption, cobalt excretion, desferrioxamine excretion, liver biopsy and tissue iron determinations, and HLA typing. Finally, unresolved problems in the understanding of the disease process, diagnosis, and therapy will be delineated.
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PMID:Iron overload disorders: natural history, pathogenesis, diagnosis, and therapy. 637 41

This article reviews the disease process hemochromatosis, which is now recognized as one of the most common genetic disorders. Hemochromatosis is transmitted as autosomal recessive, and occurs in 3% of persons of Anglo-Saxon descent. It is caused by an inappropriate increase in intestinal iron absorption resulting in deposition of excess iron in tissues. Hemochromatosis usually presents in males in their 40s, and females much later. The most frequent initial symptoms are weakness, lassitude, weight loss, and symptoms related to the onset of diabetes mellitus. The classical triad of cirrhosis, diabetes mellitus, and skin pigmentation occurs late in the disease. There is debate over the value of mass screening for the disorder; however, it is recommended that once a case has been identified family members at risk should be screened. Therapy is directed at removing excess iron by phlebotomy. By instituting early therapy, many of the long-term complications, including cirrhosis and hepatoma, can be prevented. It is imperative that physicians learn to recognize early signs and symptoms of hemochromatosis so that treated patients can expect a normal life span with minimal medical intervention.
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PMID:Recognizing genetic hemochromatosis. 784 64

Hemochromatosis, an iron storage disease, was diagnosed in 3 horses with hepatic cirrhosis. Each horse had bridging portal fibrosis and abundant iron deposits in the cytoplasm of hepatocytes. Serum concentrations of liver-derived enzymes and total bile acids were high. However, serum iron concentration was not high, and iron binding capacity was only 46% saturated in the 1 horse in which it was measured. However, the concentration of iron in the liver of this horse was 20 times the reference limits. Hemochromatosis is common in mynah birds and human beings. There are several types of this iron storage disease. In human beings, there is a familial disease with iron absorption inappropriate for the level of stored iron. Hemochromatosis also occurs secondary to cirrhosis of the liver, and in certain anemia diseases. Another type of hemochromatosis is seen in association with dietary iron overload. These horses were not related, and there was not any evidence of high dietary iron intake.
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PMID:Hepatic cirrhosis and hemochromatosis in three horses. 804 6

Iron is an essential element in all living cells because it serves machineries for biological oxidation including hemoglobin, cytochrome c oxidase, etc. Copper is also essential for mammalian life since copper is the prosthetic element of several life-essential enzymes. Although intracellular excessive iron and copper were usually sequestrated in ferritin and metallothionein molecules, accumulation of excess iron and copper may also cause severe tissue injury by including oxyradicals and lipid peroxidation and eventually bring about tissue fibrosis such as liver cirrhosis. Hemochromatosis and Wilson's disease are known as iron and copper accumulation disorders, respectively. In this chapter, we review the cirrhosis in hemochromatosis and Wilson's disease.
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PMID:[Liver cirrhosis in primary hemochromatosis and Wilson's disease]. 811 95

The need for accurate and noninvasive evaluation of liver iron stores prompted us to evaluate the reliability of high-field magnetic resonance imaging equipment in liver patients with low or moderate siderosis, given the poor results obtained using systems operating at low field strength in such cases. Twenty patients with sporadic porphyria cutanea tarda and 28 with comparable chronic liver diseases (chronic hepatitis or cirrhosis) and moderate siderosis were compared with 10 patients with idiopathic or secondary hemochromatosis and 10 healthy controls. Plasma iron profile, ferritin concentration and liver iron concentration, determined with atomic absorption spectroscopy, were matched with the magnetic resonance parameters-namely, transverse relaxation time and the signal intensity for a given proton amount, obtained with equipment operating at a field strength of 1.5 T. Hemochromatosis patients with mean liver iron concentrations of 550 mumol/gm dry wt (vs. 10 mumol of controls) exhibited an impressive reduction in the signal intensity with respect to the other three groups, and this reduction prevented any further comparison with the same porphyria cutanea tarda and chronic liver disease groups, whose liver iron level was twice that of the controls. The signal intensity remained almost unchanged in the latter groups, whereas the transverse relaxation time was significantly reduced. Moreover, correlation with liver iron was significantly inverse in the case of the transverse relaxation time (n = 17, r = 0.62, p = 0.008) and direct in the case of the transverse relaxation rate. The transverse relaxation time values returned to normal in five patients who had completed an iron-depletion program.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Magnetic resonance imaging and different levels of iron overload in chronic liver disease. 851 72


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