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)

We report on the occasional presence of iron granules in plasma cells in two male patients respectively 64 and 71 years old, both with excessive drinking habits. One patient also had liver cirrhosis. In both patients the bone-marrow biopsy showed a macrocytic anemia without megaloblasts. We refer the morphologic data because the cases reported are not many and the presence of iron granules in plasma cells was a curious and rare aspect. The most important feature appearing from the data issued is the gap concerning both the source and mechanism that cause this phenomenon. Some investigations have suggested that the plasma cell iron is located in mitochondria, others have noted that iron granules were located between the Golgi region and the rough endoplasmic reticulum. Moreover, the morphologic data are not related to the number of plasma cells in the bone-marrow and there is no causal relation between alcoholic abuse and plasma cell iron. The first problem is common, the second is rare.
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PMID:With regards to the presence of iron granules in plasma cells. 181 5

Parameters of iron metabolism and humoral immunity were studied in patients with chronic diffuse diseases of the liver (cirrhosis, chronic hepatitis), beta-thalassemia major, dyserythropoiesis, hereditary hemochromatosis. High ferritin content has been recorded in the plasma of these patients, that leads to the formation of antibodies to this protein followed by the production of circulating immune complexes inducing metabolic disorders that aggravate the pathologic process. Plasmapheresis and deferoxamine therapy result in a decrease of ferritin and circulating immune complex content in the plasma, that produces a favourable effect on the patients' condition.
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PMID:[Relation between circulating immune complexes and serum ferritin in hemosiderosis of different etiologies]. 182 96

Large regenerative nodules in cirrhotic livers may accumulate iron and develop internal iron-poor foci of hyperplasia or malignancy. Magnetic resonance examinations were performed on 23 patients with biopsy-proved cirrhosis. A "nodule-within-nodule" appearance was noted in two patients. This appearance consisted of markedly low intensity of a large nodule on gradient-echo images, with one or two internal foci that were isointense to the liver. Each of the large nodules was 2 cm in diameter, and each of the internal foci was less than 1 cm. Serum alpha-fetoprotein levels were normal in both patients. Aspiration biopsy performed in one patient failed to show malignancy, but histologic confirmation of hepatocellular carcinoma was obtained eventually in both cases. The nodule-within-nodule sign, which reflects the unique histopathology of hepatocellular carcinoma in large siderotic regenerative nodules, is strongly suggestive of early hepatocellular carcinoma, even if serologic markers and biopsy results do not support this diagnosis.
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PMID:Hepatocellular carcinoma within siderotic regenerative nodules: appearance as a nodule within a nodule on MR images. 184 84

Iron is essential for life, but iron overload is toxic and potentially fatal. The liver is a major site of iron storage and is particularly susceptible to injury from iron overload, especially when (as in primary hemochromatosis) the iron accumulates in hepatocytes. Iron can be taken up by the liver in several forms and by several pathways including: (1) receptor-mediated endocytosis of diferric or monoferric transferrin or ferritin, (2) reduction and carrier-facilitated internalization of iron from transferrin without internalization of the protein moiety of transferrin, (3) electrogenic uptake of low molecular weight, non-protein bound forms of iron, and (4) uptake of heme from heme-albumin, heme-hemopexin, or hemoglobin-haptoglobin complexes. Normally, pathway 2 is probably the major one for uptake of iron by hepatocytes. Iron is stored in the liver in the cores of ferritin shells and as hemosiderin, an insoluble product derived from iron-rich ferritin. Iron in hepatocytes stimulates translation of ferritin mRNA and represses transcription of DNA for transferrin and transferrin receptors. The major pathologic effects of chronic hepatic iron overload are: (1) fibrosis and cirrhosis, (2) porphyria cutanea tarda, and (3) hepatocellular carcinoma. Although precise pathogenetic mechanisms remain unknown, iron probably produces these and other toxic effects by increasing oxidative stress and lysosomal lability. Vigorous efforts at diagnosis and treatment of iron overload are essential since the pathologic effects of iron are totally preventable by early vigorous iron removal and prevention of iron re-accumulation.
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PMID:Iron and the liver. 184 76

The hepatic tissue iron index proposed by Bassett et al was evaluated in 35 patients with homozygous genetic haemochromatosis, 67 patients with alcoholic liver disease, and 18 patients with other forms of chronic liver disease with and without cirrhosis. In patients with cirrhosis hepatic tissue iron concentration reliably differentiated alcoholic liver disease from genetic haemochromatosis. Although mean iron concentration was greater in patients with prefibrotic haemochromatosis than in those with prefibrotic alcoholic liver disease, some overlap occurred and complete differentiation of the two conditions was not possible. This overlap was particularly evident in some young patients with haemochromatosis in whom the tissue iron concentration grade fell in the range commonly seen in alcoholic haemosiderosis. Inability to differentiate early genetic haemochromatosis from alcoholic liver disease complicated by haemosiderosis was also a problem with standard Perls's staining. When the hepatic tissue iron index was calculated (hepatic tissue iron concentration/patient's age in years), clear differentiation of genetic haemochromatosis from both alcoholic liver disease and other forms of chronic liver disease was obtained in both cirrhotic and precirrhotic patients. This study confirms that the hepatic tissue iron index is a useful means of differentiating patients with genetic haemochromatosis from those with alcoholic liver disease. We suggest that biochemical estimation of tissue iron concentration and calculation of the tissue iron index in all patients in whom genetic haemochromatosis is a possible diagnosis will reduce the likelihood of misdiagnosing this as alcoholic liver disease.
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PMID:Confirmation of the efficacy of hepatic tissue iron index in differentiating genetic haemochromatosis from alcoholic liver disease complicated by alcoholic haemosiderosis. 186 43

The authors describe 32 patients with hemochromatosis observed from 1965 through 1990 (28 men and 4 women). The diagnostic role of serum iron determination and liver biopsy is emphasized. The therapeutic results of bloodletting (500 ml weekly for several years) dyspheral (1-1.2 g intramuscularly daily for 1-2 years and longer). This treatment did not essentially influence the course of diabetes mellitus, liver cirrhosis as well as the articular and endocrine syndromes. The clinical effect of this treatment lasted for 6-8 years.
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PMID:[The characteristics of the clinical course of hereditary hemochromatosis]. 186 21

As a primarily intestinal pathogen. Yersinia enterocolitica (Y. e.) may cause generalized infection in patients with malignant and other serious diseases or immunodeficient subjects. In certain conditions, elevated serum and tissue iron concentrations represent an additional risk factor for systemic infection with this opportunistic bacterium. In our patient, Y. e. septicemia developed during liver cirrhosis decompensation. Clinical signs of infection were alleviated by appropriate antibiotic therapy (gentamycin, cefuroxime), but as septicemia had been present for several days prior to therapy, it aggravated the patient's general condition, which entailed the development of hepatorenal syndrome and eventually lethal outcome.
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PMID:[Sepsis caused by Yersinia enterocolitica in a female patient with liver cirrhosis]. 189 Sep 9

Hereditary haemochromatosis is an autosomal recessive disease that is genetically expressed by excessive accumulation of iron in the tissues, resulting in cirrhosis, diabetes mellitus, cardiomyopathy and hypogonadism. As the disease may be diagnosed before the appearance of symptoms, and prevented by repeated phlebotomies, there are strong implications for adoption of a screening procedure. Determinations of transferrin saturation (TS) and serum ferritin concentration (SF) were used to screen 4302 blood donors, who were selected for follow-up studies if they fulfilled any of the following three criteria: (i) TS greater than or equal to 0.7; (ii) TS greater than or equal to 0.5 together with SF greater than or equal to 150 micrograms l-1; (iii) SF greater than or equal to 300 micrograms l-1. A total of 58 subjects who fulfilled at least one of these criteria were reinvestigated, after which 18 individuals still fulfilled at least one criterion. Fifteen subjects having SF greater than or equal to 300 micrograms l-1 were offered liver biopsy and thirteen of these accepted. In one individual, no stainable iron was detected, and two subjects did not fulfil the previously established diagnostic criteria for the diagnosis of hereditary haemochromatosis. Ten subjects who had a high TS and liver iron grade 2-4 according to Bassett were classified accordingly as homozygotes. On the basis of these results, the prevalence of haemochromatosis in Denmark was estimated to be 0.0037-0.0046.
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PMID:Screening for haemochromatosis: prevalence among Danish blood donors. 189 49

During the period 1950-1985, a total of 179 cases of clinically overt hereditary haemochromatosis (HH) were registered in Denmark, 140 males and 39 females. Median age at diagnosis was 55 years (range 29-81). Diagnostic approaches, symptoms and physical signs at discovery are described. All patients had grade 3-4 liver haemosiderin iron, and cirrhosis was present in 84%. Serum (S-) transaminase was elevated in 92%, S-alkaline phosphatase in 47% and S-bilirubin in 23%, while plasma prothrombin time was below normal in 34%. Females had higher alkaline phosphatase than males (p less than 0.05). Bone marrow haemosiderin iron (n = 81) showed no relation to iron status indicators and was unsuitable as a diagnostic tool. Skin biopsy (n = 56) was positive for haemosiderin iron in 67% and for melanin in 57%, but was of limited value in the assessment of HH. Arthropathy was registered in 44%; arthralgias and clinical joint abnormalities occurred more frequently in females than in males (p less than 0.05). Latent diabetes mellitus was found in 34% and overt diabetes in 55%, being more frequent in males than in females (p less than 0.05). Other endocrine abnormalities were seen in 66%. Cardiac failure was observed in 9% and abnormal ECG in 35%. Males had higher haemoglobin (p less than 0.0001) and S-iron (p less than 0.01) than females, while S-transferrin, transferrin saturation, S-ferritin and mobilizable iron stores showed no significant sex differences. Median transferrin saturation was 87% (range 52-100); values greater than 62% were observed in 96% of the patients. Median S-ferritin was 3,400 micrograms/l (800-12,700) and median iron stores 14.8 g (4.5-36.4).
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PMID:Hereditary haemochromatosis in Denmark 1950-1985. Clinical, biochemical and histological features in 179 patients and 13 preclinical cases. 191 39

A 50 year-old patient with sickle cell anemia was seen who had received only two units of blood during his lifetime. He had marked iron overloading, cirrhosis of the liver, arthralgia, and mild glucose intolerance. We believe the iron overloading was associated with hereditary hemochromatosis rather than sickle cell anemia because he had HLA-A3 and B7 antigens, and hepatic iron deposits were primarily in parenchymal cells rather than Kupfer cells. The coexistence of either homozygous or heterozygous hemochromatosis should be suspected in sickle cell patients with organ damage from iron overloading.
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PMID:Sickle cell disease and hemochromatosis. 195 9

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