Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0015695 (fatty liver)
13,941 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The involvement of oxidative stress in the pathogenesis of hepatitis and hepatocellular carcinoma has been strongly suggested. Oxidative stress is produced by inflammatory processes that occur in hepatitis via immunological mechanisms. In addition, in hepatitis C virus (HCV) infectious disease, some role has been assigned to viral proteins in the induction of oxidative stress. In the presence of hepatic steatosis, insulin resistance and increased levels of some cytokines, all of which are also induced by viral protein expression, oxidative stress is enhanced in HCV infection. In this sense, the role of oxidative stress in the progression of chronic hepatitis and hepatocarcinogenesis is greater in hepatitis C than in other types of hepatitis such as hepatitis B or autoimmune hepatitis. The additive effects of oxidative stress caused by the inflammatory process and that induced by HCV proteins may, furthermore, exert synergistic effects with alterations in intracellular signaling systems such as mitogen-activated protein kinases (MAPK), which are also induced by HCV proteins. These synergistic effects may be responsible for rare characteristics, that is, the high incidence and multicentric nature of hepatocarcinogenesis in HCV infection.
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PMID:Oxidative stress and hepatitis C viral infection. 1636 81

Conflicting data exist regarding the relationship between hepatitis C virus genotype 1 and hepatic steatosis as well as the latter's role in the progression of fibrosis and treatment response. We assessed factors associated with hepatic steatosis in genotype 1 chronic hepatitis C and the impact of hepatic fat on fibrosis development and interferon responsiveness. Two hundred ninety-one non-diabetic patients with genotype 1 chronic hepatitis C were examined for the presence of steatosis and its correlation with clinical, virological, and biochemical data, including insulin resistance (IR), evaluated by the homeostasis model assessment (HOMA) score. Steatosis was graded as mild (1%-20% of hepatocytes involved), moderate (21%-40% of hepatocytes involved), and severe (>40% of hepatocytes involved). Steatosis was mild in 110 of 291 (37.8%) and moderate/severe in 55 of 291 (18.9%) subjects. By logistic regression, moderate/severe steatosis was independently associated with the female sex (odds ratio [OR] 2.74; 95% CI 1.40-5.35), high gamma-glutamyltransferase levels (OR 1.52; 95% CI 1.22-1.91), and HOMA-score (OR 1.076; 95% CI 1.001-1.26). By logistic regression, moderate/severe steatosis (OR 2.78; 95% CI 1.21-6.4), and platelet counts (OR 0.97; 95% CI 0.96-0.98) were independent predictors of advanced fibrosis. Patients with moderate/severe steatosis had an OR of 0.52 (95% CI 0.30-0.90) for sustained virological response compared with patients with mild/absent steatosis. In conclusion, in nondiabetic European patients with genotype 1 hepatitis C at low risk for the metabolic syndrome, the prevalence of steatosis was nearly 60%. IR is a risk factor for moderate/severe steatosis, especially in men. Moderate/severe steatosis has clinical relevance, being associated with advanced fibrosis and hyporesponsiveness to antiviral therapy.
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PMID:Insulin resistance is associated with steatosis in nondiabetic patients with genotype 1 chronic hepatitis C. 1679 69

Many reports suggest that hepatic steatosis leads to hepatocellular carcinoma (HCC), including hepatitis C virus or non-alcoholic steatohepatitis. Proteomic study of tumor tissues from HCC patients, focusing on apolipoprotein (apo) of apoA1, apoB100 and apoE, was performed by immunoblotting. Although the significant changes of apoA1 or apoB100 could not be shown statistically, the immunoblotting showed the increase in protein level of apoE in the tumor tissues of 88% of patients without increase of apoE gene expression and serum level. These results suggest the accumulation of apoE by impaired secretion. Moreover, immunoblot analysis on two-dimensional electrophoresis showed a strong possibility that sialylated forms of apoE also were increased in tumorous tissues of HCC. ApoE level in tumorous tissues is frequently elevated and may be a good histological marker for HCC.
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PMID:Protein level of apolipoprotein E increased in human hepatocellular carcinoma. 1646 66

Hepatic iron has been described in hepatitis C virus (HCV) infection as an important cofactor of disease outcome. The mechanisms leading to hepatic iron deposits (HIDs) in HCV patients are partially understood. We investigated HIDs in the liver biopsies of a consecutive series of 242 HCV-infected patients with well-compensated liver disease. Serum ferritin was elevated in 20.7% and transferrin saturation in 19.0%, while 38.8% had stainable HIDs indicating that serum markers of systemic iron overload have low sensitivity in predicting HIDs in hepatitis C. A cut-off value of serum ferritin (350 microg/L in females and 450 microg/L in males) had good negative predictive value in excluding presence of mild-moderate HIDs (grade II-III). Hepatic iron deposits correlated by multivariate analysis with serum ferritin [odds ratio (OR) 1.008, 95% confidence interval (CI) 1.005-1.011] and albumin (OR 1.15, 95% CI 1.02-1.297). Hepatic iron deposits were more frequent in HCV-3-infected cases than in other genotypes (P = 0.027) while raised serum iron indices were more frequent in non-HCV-3 genotypes (P = 0.02). Furthermore, advanced fibrosis (F3-F4 by METAVIR) was more frequent in non-HCV-3 genotypes (P = 0.04). In HCV-3 cases there was a close association between HIDs and severe (grade II-III) steatosis (P < 0.00001). These results indicate that in well-compensated chronic hepatitis C HIDs are strongly associated with HCV-3 and viral-induced hepatic steatosis, while in the presence of other genotypes they might merely reflect a more advanced stage of liver disease and/or a systemic iron overload. Serum ferritin could identify a subgroup of patients in which the need of venesection could be excluded without liver biopsy.
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PMID:Hepatic iron, liver steatosis and viral genotypes in patients with chronic hepatitis C. 1647 96

Hepatitis C virus (HCV) genotypes help to tailor the treatment response, but their influence on the disease severity and association with hepatic steatosis is not well understood. The prevalence of HCV genotypes and their correlation with the histopathological severity of liver disease and steatosis in Indian patients were studied. HCV-RNA and genotyping was carried out in 398 patients with chronic hepatitis C. Liver biopsy was available in 292 (73.4%) patients. The severity of liver disease was graded on the basis of the histological activity index and the stage of hepatic fibrosis. The patients were categorized as having mild (histological activity index < or =5 and/or fibrosis < or =2) or severe (histological activity index > or =6 and/or fibrosis > or =3) liver disease. Steatosis was graded in 106 patients as 0 (no steatosis), 1 (<33% of hepatocytes affected), 2 (33%-66% of hepatocytes affected), or 3 (>66% of hepatocytes affected). HCV genotype 3 was detected in 80.2% patients (3a:24.4%, 3b:3.3%, 3c:0.5%, 3a/3b:36.7%, and un-subtypable 3:15.3%), genotype 1 in 13.1% (1a:3%, 1b:5.5%, 1a/1b:0.3%, and un-subtypable 1:4.3%), genotype 4 in 3% patients (4a:1.5%, 4b:0.3%, 4a/4c:0.5%, and un-subtypable 4:0.8%), 2 in 2.5% and mixed genotypes (more than one genotype) in 1.3% of patients. The median histological activity index and fibrosis scores were: 5 and 2 in genotype 1; 4 and 2 in genotype 2; 5 and 2 in genotype 3; 7 and 3 in genotype 4; and 5 and 2 in mixed genotypes, respectively. Severe liver disease was present in 17 of 38 (45%) with genotype 1; in 1 of 3 (33%) with genotype 2; in 128 of 236 (54%) with genotype 3; 7 of 10 (70%) with genotype 4; and in 1 of 4 (25%) with mixed genotype. Hepatic steatosis grade > or =2 was found in 28.1% of genotype 3; 23.5% of genotype 1; 20% of genotype 4; and in none of genotype 2 and mixed genotypes. In conclusion, genotype 3 is the most prevalent genotype in patients with chronic hepatitis C in North and Central India and this is associated with significant hepatic steatosis and fibrosis.
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PMID:Hepatitis C virus genotype 3 predominates in North and Central India and is associated with significant histopathologic liver disease. 1648 60

Since the discovery of the hepatitis C virus (HCV) in 1989, attention has been paid to the association of chronic HCV infection and the development of diabetes. The risk factors for diabetes include older age, HCV genotype 3, severe liver fibrosis, family history of diabetes, and liver/kidney transplantation. Emerging evidence in animals and humans has shown that HCV infection induces hepatic steatosis and increases tumor necrosis factor-alpha level, both resulting in the development of insulin resistance and subsequent type 2 diabetes. It is suggested that the presence of diabetes and hepatic steatosis may enhance fibrosis progression, hepatocellular carcinoma, and atherosclerosis. Interferon is reportedly associated with improved glucose tolerance. However, interferon might enhance underlying autoimmunity against beta cells, leading to overt type 1 diabetes that is genetically predisposed or give rise to hyperglycemia, resulting in the development of type 2 diabetes. In light of the national epidemic of type 2 diabetes, the link between HCV and diabetes would be a major public health problem. Further clinical researches are awaited in order to effectively detect, prevent, and treat HCV-associated type 2 diabetes, which would also slow the progression of hepatitis C itself.
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PMID:Hepatitis C infection and diabetes. 1650 40

Non-alcoholic fatty liver disease (NAFLD) is now recognized as one of the most important causes of chronic liver disease in Western Countries, and is the hepatic manifestation of metabolic syndrome. The prevalence of NAFLD has increased with the global epidemic of obesity and type 2 diabetes mellitus. The pathophysiological hallmark of NAFLD is insulin resistance, associated with mediators of oxidative stress and inflammatory cytokines. Although simple steatosis by itself is generally benign, patients with histologically proven non-alcoholic steatohepatitis (NASH) can progress to cirrhosis. Hepatitis C (HCV) is another common cause of liver disease with some potential for progression to cirrhosis. Steatosis is present in almost 50% of patients infected by HCV. Hepatic steatosis in the setting of another liver disease (such as HCV) is associated liver disease progression. In particular, significant fibrosis is observed in patients with HCV whose liver biopsies show significant steatosis or superimposed NASH. This article reviews the host and viral factors potentially involved in the interaction between NAFLD and HCV. These factors include mediators of metabolic syndrome such as adipokines, inflammatory cytokines, factors associated with oxidative stress, lipid peroxidation products, as well as apoptosis and hepatic stellate cell activation with the resultant deposition of extracellular matrix. In addition to the mediators of metabolic syndrome (host factors), hepatic steatosis can be influenced by viral factors. The most important viral factor is HCV genotype 3, which has been independently associated with hepatic steatosis. Finally, superimposed NAFLD and visceral fat are associated with lower response rates to antiviral therapy in non-genotype 3 patients. Furthermore, viral clearance is associated with the resolution of hepatic steatosis in HCV genotype 3 but not other HCV genotypes. In these genotypes, hepatic steatosis and its impact on response to therapy are related to metabolic syndrome. Thus, the management of obesity and metabolic syndrome in patients with chronic hepatitis C may be important for reducing the risk of progression as well as improving the efficacy of antiviral therapy.
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PMID:Non-alcoholic fatty liver disease and hepatitis C infection. 1655 85

There are two discrete forms of steatosis that may be found in patients infected with hepatitis C virus (HCV). Metabolic steatosis can coexist with HCV, regardless of genotype, in patients with risk factors such as obesity, hyperlipidemia, and insulin resistance. The second form of hepatic steatosis in HCV patients is a result of the direct cytopathic effect of genotype 3 viral infections. There have been proposed mechanisms for this process but it remains elusive. Both categories of steatosis tend to hasten the progression of liver fibrosis and therefore prompt recognition and management should be initiated in patients with HCV and steatosis. The authors review the current understanding of the relationship between hepatitis C infection and hepatic steatosis and discuss future research directions.
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PMID:Hepatitis C virus (HCV) infection and hepatic steatosis. 1661 43

The newly developed elastometer, FibroScan((R)), was utilized to evaluate liver fibrosis in hepatitis C virus (HCV)- and human immunodeficiency virus (HIV)-coinfected 33 hemophiliacs and HIV-uninfected 24 patients with chronic hepatitis C. Chronicity in the liver was categorized into 4 stages by abdominal ultrasound (AUS): 1 (normal or fatty liver); 2 (chronic liver disease, mild); 3 (moderate); and 4 (severe). Stiffness of the liver was significantly increased as AUS stages advanced: 5.4+/-2.2 (N=3) versus 7.5+/-2.7 (N=9), in stage 1; 4.9+/-1.7 (N=2) versus 9.9+/-6.0 (N=10), in stage 2, 13.5+/-4.7 (N=5) versus 12.9+/-5.9 (N=6), in stage 3, and 22.0+/-9.5 (N=14) versus 28.1+/-21.3 (N=8), in stage 4, in non-HIV group and in HIV group, respectively (P=0.004 and 0.007). Stiffness was correlated with AUS stages (r=0.740, P<0.001), platelet counts (PLT; r=-0.642, P=0.001) and 7S domain of type IV collagen (IV-coll; r=0.480, P=0.024) in non-HIV group, while in HIV group, with IV-coll (r=0.801, P<0.001), AUS stages (r=-0.603, P<0.001), procollagen type III peptides (P-III-P; r=0.621, P=0.001), PLT (r=-0.480, P=0.005), and hyaluronic acid (r=0.433, P=0.027). FibroScan((R)) is absolutely noninvasive and can be the alternative to liver biopsy, especially in patients with bleeding tendency.
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PMID:Usefulness of elastometry in evaluating the extents of liver fibrosis in hemophiliacs coinfected with hepatitis C virus and human immunodeficiency virus. 1671 34

Obesity and the metabolic syndrome have hepatic manifestations, including steatosis and progression of fibrosis. In individuals with chronic hepatitis C, obesity is associated with inflammation, insulin resistance, steatosis, progression of fibrosis, and nonresponse to treatment with interferon or peginterferon alpha and ribavirin. Patients with both hepatitis C and obesity-related nonalcoholic fatty liver disease are at greater risk for more advanced liver disease. We review the mechanisms by which obesity may be associated with decreased efficacy of interferon-based therapies in individuals with chronic hepatitis C and the therapeutic strategies that may increase the effectiveness of these therapies in obese individuals.
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PMID:Impact of obesity on treatment of chronic hepatitis C. 1672 27


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