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Query: UMLS:C0019158 (hepatitis)
 30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the effects of acute and chronic ethanol feeding on hepatic regeneration in rats after partial hepatectomy and toxic liver injury produced by D-galactosamine. Ethanol, when administered as a single dose (6 g/kg), inhibited 3H-thymidine incorporation into hepatic DNA; this effect depended in part on the time of ethanol feeding after partial hepatectomy. Multiple ethanol feedings produced an even greater inhibition, which persisted for at least 48 hr after partial hepatectomy. Rats chronically fed ethanol for 30 days also failed to achieve a hepatic proliferative response to either partial hepatectomy or D-galactosamine-induced hepatitis, comparable with isocaloric pair-fed controls. These investigations suggest that there may be a certain metabolic state in the hepatocyte cell cycle that is most susceptible to the action(s) of ethanol; inhibition of liver regeneration by acute or chronic ethanol consumption may result in delayed recovery from prior or coincident liver injury.
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PMID:Inhibition of hepatic regeneration in rats by acute and chronic ethanol intoxication. 57 15

Although hepatitis B virus (HBV) has been closely associated with the development of hepatocellular carcinoma (HCC), no serologic markers of HBV can be found in up to 11% of HCC patients in developing countries and up to 68% of HCC patients in industrialized countries. Despite the absence of HBV serologic markers in these HCC patients, HBV DNA sequences have been found to be integrated into HCC DNA in 13-100% of these patients, indicating a possible role of HBV in the etiology of their HCC. Although six patients with chronic non-A, non-B hepatitis virus infection who were followed have been documented to develop HCC, it is not known whether the non-A, non-B hepatitis viruses cause or contribute to the development of HCC in some HCC patients without HBV serologic markers. Ethanol, cigarette smoking, oral contraceptives, and aflatoxin also have been suggested as possible etiologies and should be studied further. Suggested etiologies that are not supported by the published data include alpha-1-antitrypsin deficiency and schistosomiasis.
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PMID:Hepatocellular carcinoma: possible etiologies in patients without serologic evidence of hepatitis B virus infection. 253 73

We studied the effects of acute and chronic ethanol feeding on hepatic regeneration in rats following partial hepatectomy and toxic liver injury produced by D-galactosamine. Ethanol, when administered as a single dose (6 gm/kg), inhibited 3H-thymidine incorporation into hepatic DNA; this effect depended in part on the time of ethanol feeding following partial hepatectomy. Multiple ethanol feedings produced an even greater inhibition, which persisted for at least 48 hr after partial hepatectomy. Rats chronically fed ethanol for 30 days also failed to achieve a hepatic proliferative response to either partial hepatectomy or D-galactosamine induced hepatitis comparable to isocaloric pair-fed controls. These investigations suggest that there may be a certain metabolic state in the hepatocyte cell cycle which is most susceptible to the action(s) of ethanol; inhibition of liver regeneration by acute or chronic ethanol consumption may result in delayed recovery from prior or coincident liver injury.
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PMID:Effect of acute and chronic ethanol intoxication on hepatic regeneration. 719 26

Ethanol is easily absorbed from the intestine and diffuses quickly throughout body water. The bulk of ethanol is metabolized in the liver, where alcohol dehydrogenase, a complex mixture of isoenzymes, oxidizes ethanol to acetaldehyde. Ethanol abuse produces functional and structural changes in the gastrointestinal tract, such as in the stomach, small intestine, liver, and pancreas. Accumulating evidence suggests direct toxicity of ethanol and possibly of acetaldehyde. Fatty liver, alcoholic hepatitis, liver cirrhosis, acute and chronic gastritis, deranged structure and function of the small intestine, acute and chronic pancreatitis, and pancreatic lithiasis are some of the sequelae of ethanol abuse. Recent investigations have enhanced our understanding of the functional and structural changes of the gastrointestinal tract produced by the abuse of ethanol.
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PMID:Ethanol, the liver, and the gastrointestinal tract. 719 92

Following the pioneer report of Di Luzio (Physiologist 6, 169-173, 1963) concerning the prevention of the acute ethanol-induced fatty liver by antioxidants, many observations have shown that ethanol-induced liver injury may be linked, at least partly, to an oxidative stress resulting from increased free radical production and/or decreased antioxidant defence. The disturbances induced in the major hepatic enzymatic and non-enzymatic antioxidant systems following experimental acute and chronic ethanol administration are reviewed, emphasizing the important role of dietary alpha-tocopherol in modifying the induction of oxidative stress and its usual expression as increased lipid peroxidation. Adaptative increases in some elements of the hepatic antioxidant defence partly counteract the enhanced generation of prooxidant free radicals following chronic ethanol intake. By contrast, lipid peroxidation is favoured when ethanol is administered together with a fat-rich diet and/or various xenobiotics. Chronic ethanol feeding has also been reported to potentiate the oxidative stress resulting from an acute ethanol load. By generating potent chemoattractants for human neutrophils and/or by stimulating the expression of genes involved in collagen biosynthesis, liver lipid peroxidation may play an important role in the progression of steatosis to hepatitis and cirrhosis. Oxidative stress has been shown not to be restricted to the liver, but also to affect, under some experimental conditions of ethanol administration, extrahepatic tissues, such as the central nervous system, the heart and the testes. This stress can be partly prevented by vitamin E supplementation. Ethanol-induced antioxidant disturbances have also been reported in clinical studies in blood and liver biopsies. Pharmacological antioxidants could have beneficial effects in reducing the incidence of ethanol-induced changes in cellular lipids, proteins and nucleic acids. The antioxidants considered could act by reducing free radical production (e.g. chelators of redox-active iron derivatives), trapping free radicals themselves, interrupting the peroxidation process or reinforcing the natural antioxidant defence.
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PMID:Alcohol and antioxidant systems. 781 35

Acute alcohol ingestion can affect life expectancy and is directly responsible for 3,500 deaths per year. Acute lung diseases are mainly caused by pneumococci, Gram negative bacilli and anaerobic germs, and are often due to multiple microbes. In this case, evolution toward abscess can be feared. Septicaemia and enterobacterial peritonitis are frequently observed in cirrhotic patients. Ethanol, hypokaliemia and hypophosphoraemia also lead to rhabdomyolysis. Rhabdomyolysis can be complicated with acute renal failure and hyperkaliaemia. Alcoholic ketoacidosis and the hypoglycaemia favored by prolonged inadequate nutrition, are corrected by infusion of glucose solutions. Hyponatraemia can be complicated by convulsions and central pontine myelinolysis. Minor forms of alcoholic hepatitis remiss after stopping alcohol intoxication. The major forms can evolve toward fatal encephalopathy; treatment with corticosteroids improves the prognosis in severe hepatitis. The cardiac failure with lactic acidosis in shoshin beriberi rapidly evolves to collapsus; treatment is based on emergency administration of vitamin B1. Management of patients in acute alcohol episodes requires great vigilance. Careful clinical examination and biological tests should eliminate severe somatic complications before concluding to simple alcoholic intoxication.
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PMID:[Severe somatic complications of acute alcoholic intoxication]. 813 83

The effect of ethanol on cells infected with mouse hepatitis virus (MHV) was investigated. After MHV infection of competent cells, NCTC1469, ethanol was added to the culture at various concentrations, and the viability of cells was measured using 3-(4,5-dimethylthiazol-2yl)-2,5-diphenyltetrazolium bromide. To examine the possible involvement of the ethanol metabolite, acetaldehyde, alcohol dehydrogenase activity was measured in NCTC1469 cells. Ethanol alone did not show cytotoxicity against NCTC1469 cells at concentrations from 0.125% to 2%. After infection with MHV, the viability of cells decreased, and this decrease was further enhanced, dose-dependently, by the addition of ethanol. The activity of alcohol dehydrogenase in the cells was below the detectable level. The same phenomena were also demonstrated in cells infected with influenza virus and Herpes simplex virus. These results demonstrate that ethanol enhances MHV-mediated cytotoxicity; this exacerbation of cytotoxicity by ethanol is suggested to be an effect common to cytopathic virus-infected cells.
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PMID:Effect of ethanol on mouse hepatitis virus-induced cytotoxicity. 888 34

Several social or recreational drugs singly or together have demonstrated effects on the fetus and neonate, with those effects extending into adulthood. The use of recreational drugs during pregnancy remains a major health problem, with adverse effects including higher rates of fetal distress and demise, lower Apgar scores, growth retardation, and adverse neurodevelopmental outcome. Ethanol has the most profound effects, with physical stigmata of the drug seen in one third of exposed infants. In children without the affected physical appearance, profound neurodevelopmental sequelae have been demonstrated. Other drugs, such as cocaine, heroin, amphetamines, and nicotine, have been associated with impaired fetal growth and acute withdrawal during the neonatal period. Subsequently, these infants and children have an increased risk for altered neurodevelopment and long-term health status. Long-term follow-up and assessment are essential. The risk of neonatal withdrawal or abstinence syndrome is greatest with narcotic drugs but has been found to occur in neonates following exposure to cocaine, nicotine, and amphetamines. Early treatment with tincture of opium, paregoric, or phenobarbital is crucial. Assessment of the overall health status of the infant should include growth parameters, signs and symptoms of infection (especially hepatitis, syphilis, and immunodeficiency viruses), and neurobehavioral function. Such assessments should not be limited to the newborn period, as neurodevelopmental sequelae may not be manifest until later in infancy and childhood. In addition, evaluation of the social milieu is warranted because of the increased risk for neglect and abuse of drug-exposed infants and children. Early intervention, maternal drug rehabilitation treatment, and parenting classes are frequently prescribed, but their efficacy is variable. Further investigations should study the potential benefits of these recommendations.
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PMID:The impact of prenatal drug exposure on the neonate. 954 66

The Long-Evans Cinnamon (LEC) rat is a mutant strain characterized by abnormal copper metabolism and a high incidence of hepatitis and hepatoma. Using a yeast-based assay which scores mutants in p53 gene transcripts as red colonies, we detected frequent mutations in the liver of LEC rats. The majority (50-60%) of these were frameshift mutations caused by the insertion of an extra adenine (A) in the regions containing six consecutive adenines. The rate of A insertion was calculated to be 6.9-9.0% of the total p53 cDNA. Insertions of an extra adenine were found almost exclusively in the mRNA (cDNA), especially in the (A)(6) tract located at the most 5'-side (exon 4) among the three (A)(6) tracts (exons 4, 7, and 8), but rarely in the corresponding sites of genomic DNA. Wild-type p53 cDNA was transcribed in vitro into mRNA with the use of SP6 RNA polymerase and tested by the yeast functional assay. Subsequent sequencing detected A insertions at an overall rate of 1.6% in exons 7 and 8 but none in exon 4. This indicates that the A insertion in the exon 4 (A)(6) tract was an in vivo phenomenon rather than an artifact in reverse transcription or polymerase chain reaction. The percentage of red colonies increased sharply to about 20% of the liver samples in the acute hepatitis stage, and returned to control level of those in the chronic hepatitis stage, and increased again slightly to those in the neoplastic stage. The percentage of red colonies correlated with the serum GOT level (r=0.96, p<0.001) but not with the contents of copper and 8-hydroxydeoxyguanosine in the liver of LEC rats. Ethanol treatment of hepatic cell lines also increased the rate of transcriptional slippage at the (A)(6) tract. These findings indicate that cellular damage is responsible for the increase in the rate of mutation at the transcriptional level, and suggest that cellular damage degrades transcriptional fidelity, thereby further impairing cellular functions.
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PMID:Transcriptional slippage of p53 gene enhanced by cellular damage in rat liver: monitoring the slippage by a yeast functional assay. 1075 4

Ethanol toxicity on liver is a function of duration of alcoholism, amount of daily intake of alcohol and patient's nutrition. The threshold of alcohol toxicity on the liver is about 40 g of ethanol daily in men and 20-30 g in women, however liver cirrhosis develops in no more than 8-20% of patients exceeding this values. Ethanol is oxidized in the liver to acetaldehyde--a compound considerably more toxic than ethanol itself. Despite small amount of alcohol dehydrogenase (ADH) found in gastric mucosa, the metabolism of ethanol in this site may have an important hepatoprotective effect. The oxidation of ethanol is associated with a change of hepatocyte redox homeostasis, which leads to a number of metabolic disorders such as lactic acidosis, hyperlipidaemia and hyperuricaemia. Chronic ethanol consumption does not influence ADH activity, but has a profound stimulatory effect on microsomal enzymes, in particular cytochrome CYP2E1. This fact is responsible for development in alcoholic liver associated with rise of oxygen consumption, excessive production of free radicals and increased metabolism of ethanol, vitamin A and testosterone. Ethanol and acetaldehyde have a deleterious effect, both the direct and indirect, on hepatocytes e.g., generating radical oxygen species and damaging intestinal mucosal barrier. Cellular oxidative stress that is caused by both an excess of free radicals and the antioxidatives' deficiency (glutathion, vitamin E, phosphatidylcholine), may be the principal factor responsible for progression of alcoholic liver disease. Among other factors accelerating alcohol-related liver lesion there are certain drugs, high fat diet, infection with HCV and genetic factors (female sex, enzymatic polymorphic forms of ADH and ALDH, hemochromatosis). Great importance in pathogenesis of necrotic and inflammatory hepatic events is being attributed to portal endotoxaemia and cytokines induced within the liver, in particular TNF-alpha and interleukin 8. These cytokines play a key role in development of alcoholic hepatitis, which clinical severity ranges from subclinical to fatal forms. Apart from abstinence, the treatment of alcohol liver disease is based on hyperalimentation, since alcoholism is generally associated with protein malnutrition. In severe forms of alcohol hepatitis corticosteroids are recommended.
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PMID:[Alcoholic liver disease]. 1290 Dec 71


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