UMLS:C0023890 - FACTA Search

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)

Inter- and intraindividual variability in pharmacokinetics of most drugs is largely determined by variable liver function as described by parameters of hepatic blood flow and metabolic capacity. These parameters may be altered as a result of disease affecting the liver, genetic differences in metabolising enzymes, and various types of drug interactions, including enzyme induction, enzyme inhibition or down-regulation. With the now known large number of drug metabolising enzymes, their differential substrate specificity, and their differential induction or inhibition, each test substance of liver function should be used as a probe for its specific metabolising enzyme. Thus, the concept of model test-substances providing general information about liver function has severe limitations. To test the metabolic activity of several enzymes, either several test substances may be given (cocktail approach) or several metabolites of a single test substance may be analysed (metabolic fingerprint approach). The enzyme-specific analysis of liver function results in a preference for analysis of the metabolites rather than analysis of the clearance of the parent test substance. There are specific methods to quantify the activity of cytochrome P450 enzymes such as CYP1A2, CYP2C9, CYP2C19MEPH, CYP2D6, CYP2E1, and CYP3A, and phase II enzymes, such as glutathione S-transferases, glucuronyl-transferases or N-acetyltransferases, in vivo. Interactions based on competitive or noncompetitive inhibition should be analysed specifically for the cytochrome P450 enzyme involved. At least 5 different types of cytochrome P450 enzyme induction may result in major variability of hepatic function; this may be quantified by biochemical parameters, clearance methods, or highly enzyme-specific methods such as Western blot analysis or molecular biological techniques such as mRNA quantification in blood and tissues. Therapeutic drug monitoring is already implicitly used for quantification of the enzyme activities relevant for a specific drug. Selective impairment of hepatic enzymes due to gene mutations may have an effect on the pharmacokinetics of certain drugs similar to that caused by cirrhosis. Assessment of this heritable source of variability in liver function is possible by in vivo or ex vivo enzymological methods. For genetically polymorphic enzymes and carrier proteins involved in drug disposition, molecular genetic methods using a patient's blood sample may be used for classification of the individual into: (i) the impaired or poor metaboliser (homozygous deficient); (ii) the extensive (homozygous active) metaboliser group; and (iii) the moderately extensive metaboliser (heterozygous) group. For hepatic blood flow determinations, galactose or sorbitol given at relatively low doses may be much better indicators than the indocyanine green.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Assessment of liver metabolic function. Clinical implications. 798 3

Drug metabolism is usually impaired in malnourished patients with decompensated cirrhosis, but the separate influence of clinicopathological variables, including nutritional status, on the expression of hepatic cytochrome P450 proteins has not been well characterized. We determined the hepatic content of CYP1A2, CYP2C8/10, CYP2E1 and CYP3A proteins in 71 subjects, 21 with histologically normal livers and 50 with chronic liver disease, and then tested for potential relationships between patient variables and individual CYP proteins by multivariate linear regression analysis. Variables analysed included nutritional status (determined by experienced clinicians), serum albumin and bilirubin concentrations, prothrombin time, the grade of ascites and hepatic encephalopathy, and the Child-Pugh score. Impaired nutrition and cachexia were associated with reductions of CYP2C8/10 levels of approximately 19 and 39%, respectively, relative to cases in which nutrition was replete. Similarly, CYP2E1 protein was reduced by approximately 13 and 26%, according to the apparent severity of nutritional impairment. In contrast, nutritional status did not contribute to variability in expression of CYP1A2 or CYP3A proteins. Of the clinicopathological variables analysed, only serum bilirubin was shown to have an independent influence on CYP protein content. Thus, elevated serum bilirubin concentrations were associated with significant declines in the contents of CYP1A2 and CYP2C8/10 but not CYP3A or CYP2E1. The mechanisms for the effects of nutritional status and serum bilirubin concentration on the levels of CYP proteins are unclear, but could be mediated by factors such as cytokines, dietary composition and alterations in the level of serum bile acids. Knowledge of the influence of clinicopathological factors and nutritional status on CYP expression should lead to more rational drug prescribing in patients with hepatic disease.
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PMID:Influence of clinicopathological variables on CYP protein expression in human liver. 867 39

The proton pump inhibitor pantoprazole is a substituted benzimidazole sulphoxide for the treatment of acid-related gastrointestinal diseases such as reflux esophagitis, duodenal and gastric ulcers. Pantoprazole, administered as a 40 mg enteric coated tablet, is quantitatively absorbed. Its absolute bioavailability is 77% and does not change upon multiple dosing. Following a single oral dose of 40 mg, Cmax is approximately 2.5 mg/l, with a tmax of 2-3 h. The AUC(O,inf.) is approximately 5 mgxh/l. Pantoprazole shows linear pharmacokinetics after both i.v. and oral administration. Pantoprazole is extensively metabolized in the liver, has a total serum clearance of 0.1 l/h/kg, a serum elimination halflife of about 1.1 h, and an apparent volume of distribution of 0.15 l/kg. 98% of pantoprazole is bound to serum proteins. Elimination half-life, clearance and volume of distribution are independent of the dose. The main serum metabolite is formed by demethylation at the 4-position of the pyridine ring, followed by conjugation with sulphate. Almost 80% of an oral or intravenous dose is excreted as metabolites in urine; the remainder is found in feces and originates from biliary secretion. The pharmacokinetics of pantoprazole are unaltered in patients with renal failure. In patients with severe liver cirrhosis, the decreased rate of metabolism results in a half-life of 7-9 h. The clearance of pantoprazole is only slightly affected by age, its half-life being approximately 1.25 h in the elderly. Concomitant intake of food had no influence on the bioavailability of pantoprazole. Pantoprazole showed lack of cytochrome P450 interaction with concomitantly administered drugs in any of the studies conducted to date. Lack of interaction was also demonstrated with a coadministered antacid. The absence of inductive effects on metabolism after chronic administration was first shown by using antipyrine as a probe for mixed functional oxidative cytochrome P450 enzymes. Absence of CYP1A2 induction was confirmed using the specific probe caffeine. As sensitive probes for CYP3A enzyme induction, urinary excretion of D-glucaric acid and 6 beta-hydroxycortisol were also unchanged.
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PMID:Pharmacokinetics of pantoprazole in man. 873 54

The proton pump inhibitor pantoprazole is a substituted benzimidazole sulphoxide for the treatment of acid-related gastrointestinal diseases such as reflux esophagitis, duodenal and gastric ulcers. Pantoprazole, administered as a 40 mg enteric coated tablet, is quantitatively absorbed. Its absolute bioavailability is 77% and does not change upon multiple dosing. Following a single oral dose of 40 mg, Cmax is approximately 2.5 mg/l, with a tmax of 2-3 h. The AUC(0,inf.) is approximately 5 mgxh/l. Pantoprazole shows linear pharmacokinetics after both i.v. and oral administration. Pantoprazole is extensively metabolized in the liver, has a total serum clearance of 0.1 l/h/kg, a serum elimination half-life of about 1.1 h, and an apparent volume of distribution of 0.15 l/kg. 98% of pantoprazole is bound to serum proteins. Elimination half-life, clearance and volume of distribution are independent of the dose. The main serum metabolite is formed by demethylation at the 4-position of the pyridine ring, followed by conjugation with sulphate. Almost 80% of an oral or intravenous dose is excreted as metabolites in urine; the remainder is found in feces and originates from biliary secretion. The pharmacokinetics of pantoprazole are unaltered in patients with renal failure. In patients with severe liver cirrhosis, the decreased rate of metabolism results in a half-life of 7-9 h. The clearance of pantoprazole is only slightly affected by age, its half-life being approximately 1.25 h in the elderly. Concomitant intake of food had no influence on the bioavailability of pantoprazole. Pantoprazole showed lack of cytochrome P450 interaction with concomitantly administered drugs in any of the studies conducted to date. Lack of interaction was also demonstrated with a coadministered antacid. The absence of inductive effects on metabolism after chronic administration was first shown by using antipyrine as a probe for mixed functional oxidative cytochrome P450 enzymes. Absence of CYP1A2 induction was confirmed using the specific probe caffeine. As sensitive probes for CYP3A enzyme induction, urinary excretion of D-glucaric acid and 6 beta-hydroxycortisol were also unchanged.
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PMID:Pharmacokinetics of pantoprazole in man. 879 99

We present the case of a patient with hepatitis C-induced cirrhosis and concomitant human immunodeficiency virus infection who underwent orthotopic liver transplantation. The patient developed severe, prolonged tacrolimus toxicity in the presence of human immunodeficiency virus protease inhibitors. At various times, the patient received saquinavir, ritonavir, and nelfinavir in conjunction with tacrolimus. In each instance, the tacrolimus concentration rose to toxic levels. We hypothesize that the protease inhibitors' competition for binding to cytochrome P450 isoenzyme system CYP3A induced extreme prolongation of tacrolimus metabolism. After stabilization of the patient, reinstitution of treatment with nelfinavir resulted in a >95% reduction in tacrolimus dosing from 4 mg twice per day to 0.5 mg once every 3-5 days.
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PMID:Concomitant human immunodeficiency virus protease inhibitor therapy markedly reduces tacrolimus metabolism and increases blood levels. 1044 Apr 8

Liver diseases are associated with a decrease in hepatic drug elimination, but there is evidence that cirrhosis does not result in uniform changes of cytochrome P450 (CYP) isoenzymes. The objective of this study was to determine the content and activity of four CYP isoenzymes in the bile duct ligation and carbon tetrachloride (CCl4)-induced models of cirrhosis. The hepatic content of CYP1A, CYP2C, CYP2E1, and CYP3A was measured by Western blot analysis. CYP activity in vivo was evaluated with breath tests using substrates specific for different isoenzymes: caffeine (CYP1A2), aminopyrine (CYP2C11), nitrosodimethylamine (CYP2E1), and erythromycin (CYP3A). Bile duct ligation resulted in biliary cirrhosis; CYP1A, CYP2C and CYP3A content was decreased and the caffeine, aminopyrine, and erythromycin breath tests were reduced whereas CYP2E1 content and the nitrosodimethylamine breath test were unchanged compared with controls. CCl4 treatment resulted in cirrhosis of varying severity as assessed from the decrease in liver weight and serum albumin. In rats with mild cirrhosis, CYP content was comparable with controls except for a decrease in CYP2C. The activity of CYPs was also unchanged except for an increase in CYP2E1 activity. In rats with more severe cirrhosis, the content of all four CYP isoenzymes and the caffeine, aminopyrine, and erythromycin breath tests were reduced whereas the nitrosodimethylamine breath test was unchanged. In both models of cirrhosis, there was a significant correlation between the breath tests results and the severity of cirrhosis as assessed from serum albumin levels. These results indicate that content and the catalytic activity of individual CYP enzymes are differentially altered by cirrhosis in the rat and also suggest that drug probes could be useful to assess hepatic functional reserve.
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PMID:Differential alteration of cytochrome P450 isoenzymes in two experimental models of cirrhosis. 1110 Sep 40

Fluvastatin, the first fully synthetic HMG-CoA reductase inhibitor, has been shown to reduce cholesterol in patients with hyperlipidaemia, to prevent subsequent coronary events in patients with established coronary heart disease, and to alter endothelial function and plaque stability in animal models. Fluvastatin is relatively hydrophilic, compared with the semisynthetic HMG-CoA reductase inhibitors, and, therefore, it is extensively absorbed from the gastrointestinal tract. After absorption, it is nearly completely extracted and metabolised in the liver to 2 hydroxylated metabolites and an N-desisopropyl metabolite, which are excreted in the bile. Approximately 95% of a dose is recovered in the faeces, with 60% of a dose recovered as the 3 metabolites. The 6-hydroxy and N-desisopropyl fluvastatin metabolites are exclusively generated by cytochrome P450 (CYP) 2C9 and do not accumulate in the blood. CYP2C9, CYP3A4, CYP2C8 and CYP2D6 form the 5-hydroxy fluvastatin metabolite. Because of its hydrophilic nature and extensive plasma protein binding, fluvastatin has a small volume of distribution with minimal concentrations in extrahepatic tissues. The pharmacokinetics of fluvastatin are not influenced by renal function, due to its extensive metabolism and biliary excretion; limited data in patients with cirrhosis suggest a 30% reduction in oral clearance. Age and gender do not appear to affect the disposition of fluvastatin. CYP3A4 inhibitors (erythromycin, ketoconazole and itraconazole) have no effect on fluvastatin pharmacokinetics, in contrast to other HMG-CoA reductase inhibitors which are primarily metabolised by CYP3A and are subject to potential drug interactions with CYP3A inhibitors. Coadministration of fluvastatin with gastrointestinal agents such as cholestyramine, and gastric acid regulating agents (H2 receptor antagonists and proton pump inhibitors), significantly alters fluvastatin disposition by decreasing and increasing bioavailability, respectively. The nonspecific CYP inducer rifampicin (rifampin) significantly increases fluvastatin oral clearance. In addition to being a CYP2C9 substrate, fluvastatin demonstrates inhibitory effects on this isoenzyme in vitro and in vivo. In human liver microsomes, fluvastatin significantly inhibits the hydroxylation of 2 CYP2C9 substrates, tolbutamide and diclofenac. The oral clearances of the CYP2C9 substrates diclofenac, tolbutamide, glibenclamide (glyburide) and losartan are reduced by 15 to 25% when coadministered with fluvastatin. These alterations have not been shown to be clinically significant. There are inadequate data evaluating the potential interaction of fluvastatin with warfarin and phenytoin, 2 CYP2C9 substrates with a narrow therapeutic index, and caution is recommended when using fluvastatin with these agents. Fluvastatin does not appear to have a significant effect on other CYP isoenzymes or P-glycoprotein-mediated transport in vivo.
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PMID:Clinical pharmacokinetics of fluvastatin. 1136 92

Cytochrome P450 2C19 (CYP2C19) is the main (or partial) cause for large differences in the pharmacokinetics of a number of clinically important drugs. On the basis of their ability to metabolise (S)-mephenytoin or other CYP2C19 substrates, individuals can be classified as extensive metabolisers (EMs) or poor metabolisers (PMs). Eight variant alleles (CYP2C19*2 to CYP2C19*8) that predict PMs have been identified. The distribution of EM and PM genotypes and phenotypes shows wide interethnic differences. Nongenetic factors such as enzyme inhibition and induction, old age and liver cirrhosis can also modulate CYP2C19 activity. In EMs, approximately 80% of doses of the proton pump inhibitors (PPIs) omeprazole, lansoprazole and pantoprazole seem to be cleared by CYP2C19, whereas CYP3A is more important in PMs. Five-fold higher exposure to these drugs is observed in PMs than in EMs of CYP2C19, and further increases occur during inhibition of CYP3A-catalysed alternative metabolic pathways in PMs. As a result, PMs of CYP2C19 experience more effective acid suppression and better healing of duodenal and gastric ulcers during treatment with omeprazole and lansoprazole compared with EMs. The pharmacoeconomic value of CYP2C19 genotyping remains unclear. Our calculations suggest that genotyping for CYP2C19 could save approximately 5000 US dollars for every 100 Asians tested, but none for Caucasian patients. Nevertheless, genotyping for the common alleles of CYP2C19 before initiating PPIs for the treatment of reflux disease and H. pylori infection is a cost effective tool to determine appropriate duration of treatment and dosage regimens. Altered CYP2C19 activity does not seem to increase the risk for adverse drug reactions/interactions of PPIs. Phenytoin plasma concentrations and toxicity have been shown to increase in patients taking inhibitors of CYP2C19 or who have variant alleles and, because of its narrow therapeutic range, genotyping of CYP2C19 in addition to CYP2C9 may be needed to optimise the dosage of phenytoin. Increased risk of toxicity of tricyclic antidepressants is likely in patients whose CYP2C19 and/or CYP2D6 activities are diminished. CYP2C19 is a major enzyme in proguanil activation to cycloguanil, but there are no clinical data that suggest that PMs of CYP2C19 are at a greater risk for failure of malaria prophylaxis or treatment. Diazepam clearance is clearly diminished in PMs or when inhibitors of CYP2C19 are coprescribed, but the clinical consequences are generally minimal. Finally, many studies have attempted to identify relationships between CYP2C19 genotype and phenotype and susceptibility to xenobiotic-induced disease, but none of these are compelling.
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PMID:Clinical significance of the cytochrome P450 2C19 genetic polymorphism. 1222 94

While the urinary concentration ratio of 6beta-hydroxycortisol (6beta-HC) to cortisol (C) in 24-h urine samples is an established parameter for the induction of hepatic cytochrome P450 (CYP) 3A activity, it remains unclear whether it would be reduced in association with chronic liver damages. To clarify this issue we measured this parameter in 12 patients with chronic hepatitis, 15 patients with liver cirrhosis and 12 healthy subjects. Urinary 6beta-HC and C were assayed with high-performance liquid chromatography with ultraviolet absorption. Multiple regression analysis was performed to search for which biochemical or demographic parameter(s) would be associated with the overall variability of urinary 6beta-HC/C ratios. Results showed that the mean (+/-S.D.) 6beta-HC/C ratio obtained from the patients with liver cirrhosis (4.3+/-2.6), but not that from patients with chronic hepatitis (7.4+/-7.2), was significantly (P<0.05) lower than that obtained from the healthy controls (11.8+/-8.3). It was also revealed that among the clinical parameters examined (e.g. serum transaminases concentrations) only serum albumin concentrations were correlated significantly (R=0.61, P<0.05) with the urinary 6beta-HC/C ratio. In conclusion, the present study implies that that the reduced urinary 6beta-HC/C ratios in patients with liver cirrhosis may be associated with attenuated hepatic CYP3A activity in these patients.
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PMID:Reduced urinary 6beta-hydroxycortisol to cortisol ratios in patients with liver cirrhosis. 1278 1

Pantoprazole, a second-generation proton pump inhibitor, is absorbed after oral administration as enteric-coated tablet with maximum plasma concentrations within 2-3 h and a bioavailability of 77%. Food has no relevant effect on absorption. The pharmacokinetics of pantoprazole are dose linear in the therapeutic range. The parent drug is totally metabolized, mainly by the polymorphically expressed CYP2C19 and by CYP3A. The pharmacokinetic profile is practically unchanged after multiple dosing, as is expected for a drug with a short half-life of about 1 h. A lack of pharmacokinetic interactions with various drugs has been shown. No clinically relevant changes in the pharmacokinetics of pantoprazole are observed in elderly subjects and patients with severe renal insufficiency. However, clearance is decreased in poor metabolizers of (S)-mephenytoin and in patients with liver cirrhosis.
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PMID:Pharmacokinetics and metabolism of the proton pump inhibitor pantoprazole in man. 1297 71

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