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)

Cholestatic liver disease is primarily caused by impaired bile production on the level of hepatocytes and cholangiocytes. Clinically cholestasis can be divided into intrahepatic and extrahepatic forms based on the presence or absence of dilated bile ducts (sonography). Intrahepatic cholestasis is most frequently caused by end stage liver cirrhosis followed by primary cholangiopathies and canalicular transport defects in hepatocytes. The causes of the most important cholangiopathies, such as Primary Biliary Cirrhosis (PBC) and Primary Sclerosing Cholangitis (PSC) are so far not known. Therefore, drug therapy of cholestatic liver disease focuses on the improvement of symptoms such as fatigue, pruritus, abdominal discomfort, jaundice, xanthoma, hypercholesterolemia, portal hypertension, blood count abnormalities, osteoporosis/osteomalacia, and the prevention of complications such as bile-duct strictures in PSC and development of cholangiocarcinoma. The first choice drug in the treatment of cholestatic liver disease of various causes is urosodeoxycholic acid (UDCA), that has been shown to decrease bile acid toxicity in general and prolong the transplant free survival of patients with PBC. If cholestasis persists cirrhosis of the liver is the major complication and liver transplantation may be the definitive treatment in advanced cases of cholestatic liver disease.
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PMID:[Cholestatic liver diseases]. 945 66

Bone thinning causing both fractures and severe pain not associated with fractures has been recognized in patients with chronic liver diseases. The patients most commonly affected are those with primary or secondary biliary cirrhosis, but those with alcoholic liver disease and cirrhosis after active chronic hepatitis may also be involved. Chronic liver disease has also been recognized as an important cause of osteoporosis in both sexes, with the mechanism thought to be a combination of calcium and/or vitamin D. The 9.1% patients with chronic active hepatitis accompanied with osteodystrophy. But 50% cirrhotic patients accompanied with osteodystrophy. Bone densitometry was determined by Digital Image Processing Method (Osteodystrophy < mean-2SD: age- and sex-matched normal value). Serum levels of osteocalcin (BGP) and parathyroid hormone (PTH) in patients of hepatic cirrhosis without osteodystrophy were lower than those with osteodystrophy. These results were suggested that hepatic osteodystrophy was rapidly turnover osteodystrophy. To function physiologically, vitamin D must be hydroxylation in liver to 25-(OH)-D and subsequently by the kidney to 1 alfa, 25-(OH)2-D. Osteodystrophy associated with hepatic cirrhosis is due to a defect in the 1 alfa-hydroxylation by the kidney rather than a hepatic hydroxylation defect. 1 alfa OH-D3 is very useful for treatment for hepatic osteodystrophy.
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PMID:[Hepatic osteodystrophy]. 964 89

Previous studies suggest that low bone mass is a complication of alcoholic liver disease. Nevertheless, little is known about bone mass and bone metabolism in viral cirrhosis. To evaluate the prevalence and magnitude of hepatic osteopenia in these patients, bone remodeling status, and its relationship with the severity of liver disease and serum levels of insulin-like growth factor I (IGF-I), we studied 32 consecutive patients with viral cirrhosis and no history of alcohol intake. Bone mineral density (BMD) was measured by dual x-ray absorptiometry in the lumbar spine (LS) and femoral neck (FN), and the values were expressed as the z score. Bone metabolism markers and hormone profiles were measured. Patients with viral cirrhosis showed reduced BMD in all sites (LS: -1.27 +/- 1.06, P < .001; FN: -0.48 +/- 0.96; P < .01). Of the 32 patients, 53% met the diagnostic criteria for osteoporosis. In patients, urine deoxypyridinoline (D-Pyr) as a marker of bone resorption and serum bone alkaline phosphatase (b-AP) as a marker of bone formation were significantly higher than in control subjects (P < .001 and P < .01, respectively). Serum IGF-I was lower than in control subjects (P < .001), and significant differences were also found between patients with and without osteoporosis (P < .05). BMD in LS correlated with severity of the disease, with serum levels of IGF-I, and with urine D-Pyr. Our findings show that viral cirrhosis is a major cause of osteoporosis in men, and that low serum IGF-I levels seem to play a role in the bone mass loss in these patients. The biochemical markers of bone remodeling suggest high-turnover osteoporosis in patients with viral cirrhosis.
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PMID:Bone mineral density, serum insulin-like growth factor I, and bone turnover markers in viral cirrhosis. 973 61

Prolonged and excessive intake of alcoholic beverages can lead to addiction, increased tolerance and physical dependence as in the case of other drugs. It is the cause of many deaths due to cirrhosis, cancer and accidents. It favours numerous symptoms and disorders that can be reversible on withdrawal of alcohol. Alcohol is not toxic. Taken in regular and moderate fashion (20 to 30 g of alcohol per day), alcoholic beverages play a psychosocial role that gives a certain pleasure. In addition, many concordant epidemiologic studies support the notion that overall morbidity and mortality are significantly less than in those who abstain. The benefit is particularly evident in mortality due to cardiovascular events, but also in senile dementia and osteoporosis. However, there are no data confirming a cause and effect relationship. Despite this potentially favourable role, it cannot be recommended to suggest the use of alcohol to those who abstain, given the possibility that some might subsequently develop alcohol dependence.
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PMID:[Beneficial and deleterious effects of alcoholic beverages]. 1031 84

Causes of secondary osteoporosis are diverse, and bone changes in this condition have been elucidated less than those in primary osteoporosis. In this study, bone mineral density (BMD) was measured in the lumbar spine, distal and proximal sites of the radius, and calcaneus in representative disorders that cause secondary osteoporosis to evaluate its changes. Also, the incidence of nontraumatic vertebral fracture was examined. The subjects were 80 patients with rheumatoid arthritis, 50 patients undergoing glucocorticoid (steroid) therapy, 20 patients with chronic hepatitis, 24 patients with liver cirrhosis, 14 patients with primary biliary cirrhosis (PBC), 26 patients with diabetes mellitus, and 20 postgastrectomy patients; all were ambulatory female outpatients. Two hundred females with primary osteoporosis were examined as a control group. The reproducibility of the measurement of the BMD was satisfactory at about 3% by all methods of measurement employed. Concerning changes in BMD, periarticular trabecular bone density was most markedly reduced in the rheumatoid arthritis group. The patients receiving steroid therapy showed the greatest decreases in the trabecular bone mineral density at the distal 4% of the radius and lumbar spinal BMD. In addition, the threshold of vertebral fracture was higher in those undergoing steroid therapy than in those with primary osteoporosis. The patients with PBC showed the greatest decreases in BMD among patients with chronic liver disorders, and no decrease in BMD was noted in the chronic hepatitis group. BMD was reduced only in the radius in the patients with diabetic mellitus, and it was generally reduced in the postgastrectomy patients. BMD of the calcaneus was not reduced in any group.
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PMID:The change of bone mineral density in secondary osteoporosis and vertebral fracture incidence. 1034 Jun 39

Ethanol is one of the few nutrients that is profoundly toxic. Alcohol causes both whole-body and tissue-specific changes in protein metabolism. Chronic ethanol missuse increases nitrogen excretion with concomitant loss of lean tissue mass. Even acute doses of alcohol elicit increased nitrogen excretion. The loss of skeletal muscle protein (i.e., chronic alcoholic myopathy) is one of several adverse reactions to alcohol and occurs in up to two-thirds of all ethanol misusers. There are a variety of other diseases and tissue abnormalities that are entirely due to ethanol-induced changes in the amounts of individual proteins or groups of tissue proteins; for example, increased hepatic collagen in cirrhosis, reduction in myosin in cardiomyopathy, and loss of skeletal collagen in osteoporosis. Ethanol induces changes in protein metabolism in probably all organ or tissue systems. Clinical studies in alcoholic patients without overt liver disease show reduced rates of skeletal muscle protein synthesis though whole-body protein turnover does not appear to be significantly affected. Protein turnover studies in alcohol misusers are, however, subject to artifactual misinterpretations due to non-abstinence, dual substance misuse (e.g., cocaine or tobacco), specific nutritional deficiencies, or the presence of overt organ dysfunction. As a consequence, the most reliable data examining the effects of alcohol on protein metabolism is derived from animal studies, where nutritional elements of the dosing regimen can be strictly controlled. These studies indicate that, both chronically and acutely, alcohol causes reductions in skeletal muscle protein synthesis, as well as of skin, bone, and the small intestine. Chronically, animal studies also show increased urinary nitrogen excretion and loss of skeletal muscle protein. With respect to skeletal muscle, the reductions in protein synthesis do not appear to be due to the generation of reactive oxygen species, are not prevented with nitric oxide synthase inhibitors, and may be indirectly mediated by the reactive metabolite acetaldehyde. Changes in skeletal muscle protein metabolism have profound implications for whole body physiology, while protein turnover changes in organs such as the heart (exemplified by complex alterations in protein profiles) have important implications for cardiovascular function and morbidity.
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PMID:Protein metabolism in alcoholism: effects on specific tissues and the whole body. 1042 97

Excessive deposition of Fe in the organs and tissues of Sub-Saharan Africans was first described in South Africa in 1929. Fe overload, or siderosis, was initially attributed to infections and to metallic poisoning (Cu, Sn, Zn), and then to malnutrition. In 1953 it was hypothesized that it was due primarily to excessive Fe intake derived from foods and drinks prepared in Fe vessels. Recently, in 1992 it was advanced that a gene distinct from any HLA-linked locus may also play a role. As to sequelae, in early research on series of hospital patients, the condition was linked to scurvy, osteoporosis, diabetes, cirrhosis, and latterly, to hepatocellular cancer and tuberculosis. Accordingly, many have concluded that Fe overload is responsible for considerable morbidity and mortality, that adventitious Fe intake should be reduced, and that phlebotomy be recommended for those severely affected. However, there are numerous limitations in the evidence. There are also problems in interpretation, since levels of Fe in the serum are affected additionally by a variety of factors: infection, inflammation, certain cancers and alcohol intake. These considerations complicate attempts to assess to what extent the associations described denote causation, and whether Fe overload has significant ramifications for ill in the general African population. While the adverse sequelae of overload may be less of significance than many believe, the precise pathogenicity of the phenomenon will remain uncertain until further investigations, including prospective studies, are undertaken.
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PMID:Iron overload in Sub-Saharan Africa: to what extent is it a public health problem? 1061 17

African iron overload has been recognised in sub-Saharan Africa for seventy years. The condition is distinct from the well-characterised HLA-linked haemochromatosis described in Caucasians. Increased dietary iron intake predisposes to the condition. Recent evidence suggest that African iron overload may be caused by an interaction between increased dietary iron and a genetic defect not associated with the HLA-locus. Iron deposition is prominent both in macrophages and in hepatic parenchymal cells. Iron overload is distinct from alcoholic liver disease, although the excess dietary iron is derived from a traditional beverage that contains alcohol. African iron overload has clinical consequences. It is a cause of hepatic fibrosis and cirrhosis, and associations with diabetes mellitus, peritonitis, scurvy and osteoporosis have been described. African iron overload may be a cause of hepatocellular carcinoma. The disorder is associated with a poor outcome in tuberculosis, an infection that is highly prevalent in sub-Saharan Africa.
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PMID:African iron overload. 1088 73

We determined bone density and metabolism in 46 patients (35 males, 11 females) who had undergone liver transplantation 1-48 months previously. Twenty-one patients were then followed for the next 24 months. At each visit, blood and urine samples for bone and liver metabolism parameters, as well as spinal and femoral dual-energy X-ray absorptiometry (DXA) scans, were obtained. Basal spinal and femoral density was low (p < 0.001). Patients with pre-transplant cholestatic diseases had lower spinal density than all the other subjects (p <0.05) and the cumulative methylprednisolone intake was an independent negative predictor of total hip density (p < 0.02). At baseline, urinary hydroxyproline and N-telopeptide were at the upper normal level and decreased only after 24 months of follow-up (p < 0.05). During the first year of follow-up, femoral density decreased (p < 0.05) and a partial recovery was observed for both spine and femur after 24 months. After 12 months, femoral bone density was negatively associated with serum cyclosporin A levels (p < 0.005) and cumulative methylprednisolone intake (p < 0.05), while the percent decrease in spinal density after the first 12 months was negatively predicted by mean daily methylprednisolone intake (p < 0.05). In patients with pre-transplant cholestatic diseases, femoral and spinal density increased after the first (p < 0.05) and second year (p < 0.05), respectively. In patients with previous post-necrotic cirrhosis, femoral density decreased after 12 months (p<0.05) and was still lower than baseline after 24 months (p < 0.05). However, at the end of the study the cumulative percentage of femoral neck osteoporosis was 43%. In conclusion, an elevated prevalence of spinal and femoral osteoporosis is present even many years after liver transplantation, with immunosuppressive treatment and pre-transplant liver disease being the most important pathogenetic factors.
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PMID:Long-term persistence of low bone density in orthotopic liver transplantation. 1091 44

Primary biliary cirrhosis (PBC) is a chronic, cholestatic disease of unknown etiology commonly affecting women. It is characterized by progressive destruction of the small intrahepatic bile ducts and portal inflammation, leading to fibrosis and cirrhosis. The major signs and symptoms of PBC, which include pruritus, lethargy, the sicca syndrome, and osteoporosis, closely resemble the manifestations of hypervitaminosis A. Based on a review of the literature and other observations connecting PBC with retinoid metabolism (vitamin A and its derivatives), the hypothesis is proposed that exposure to excess endogenous retinoids contributes to the pathogenesis of PBC and may be to the cause of some of the signs and symptoms associated with the disease.
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PMID:Possible role of endogenous retinoid (Vitamin A) toxicity in the pathophysiology of primary biliary cirrhosis. 1096 36

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