Prognostic Value of the Monoethylglycinexylidide Test in Pediatric Liver Transplant Candidates

Burdelski, M.; Schütz, Ekkehard; Nolte-Buchholtz, Silke; Armstrong, Victor W.; Oellerich, Michael

doi:10.1097/00007691-199608000-00011

Cited by 16 publications

(4 citation statements)

References 13 publications

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“…After i.v. administration it has been shown to be a rapid and sensitive indicator of oxidative drug metabolizing hepatic function in liver disease (77)(78)(79)(80)(81)(82)(83) and in pre-and post-transplant conditions (84)(85)(86)(87)(88)(89). Recently, Shiffman et al (90) reported the results of the lidocaine test performed in 225 patients with chronic hepatitis.…”

Section: Lidocaine For 3a4mentioning

confidence: 99%

In vivo function tests of hepatic drug-oxidizing capacity in patients with liver disease

Tanaka¹,

Breimer²

1997

Journal of Clinical Pharmacy and Therapeutics

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Aminopyrine, antipyrine and trimethadione have been widely used for some time as probe drugs to assess non-selective P450 liver function. They have proved useful in evaluating pre- and post-operative liver function when performing surgery, transplantations, etc., in addition to a general evaluation of liver function and drug interactions. Progress has recently been made both in these non-selective P450 function tests and in the analysis of drug-metabolizing enzymes at a molecular level, which has resulted in more selective P450 function tests. The caffeine (CYP1 A2), chlorzoxazone (CYP2E1), lidocaine (CYP3 A) and midazolam (CYP3 A) function tests and the erythromycin breath test (CYP3 A) are currently being used as specific probes. The future use of these tests needs to be discussed in terms of potential clinical implications.

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Section: Lidocaine For 3a4mentioning

confidence: 99%

In vivo function tests of hepatic drug-oxidizing capacity in patients with liver disease

Tanaka¹,

Breimer²

1997

Journal of Clinical Pharmacy and Therapeutics

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“…It would be useful to determine the value of the test in evaluating the function of the liver during its various diseases, for the hitherto existing researches [19][20][21] are mainly concentrated on describing, how the test can be used to evaluate the usefulness of the organ for transplantation and to forecast its functions.…”

Section: Discussionmentioning

confidence: 99%

Liquid chromatographic method for the determination of lidocaine and monoethylglycine xylidide in human serum containing various concentrations of bilirubin for the assessment of liver function

Piwowarska

Kuczyńska

Pachecka

2004

Journal of Chromatography B

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“…In conclusion, the results of the MEGX formation test fairly accurately reflect the severity of hepatic dysfunction, making it valuable both for quantitative evaluation of liver function and as a prognostic tool in adults with liver disease ( 96). Moreover, liver function tests have recently been used as indices of the status of restoration of hepatic drug‐oxidizing capacity in liver transplantation patients ( 100–106). As stated above, the metabolism of drugs whose biotransformation is mediated by this CYP has been reported to be inhibited (30–50%) in liver disease (cirrhosis) ( 80–91).…”

Section: Cyp3amentioning

confidence: 99%

Clinical importance of non-genetic and genetic cytochrome P450 function tests in liver disease

Tanaka

1998

J Clin Pharm Ther

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Liver disease is associated with reduced metabolic capacity for drugs that are metabolized by oxidative biotransformation. Three cytochrome P450 (P450 or CYP) gene families in liver microsomes (CYP 1, CYP2 and CYP3) appear to be responsible for much of the drug metabolism that takes place. The genetic polymorphism of the CYPs responsible for debrisoquine/ sparteine (CYP2D6) metabolism and S-mephenytoin (CYP2C19) metabolism has been well documented, but information on the impairment of each isoform in liver disease is still limited. There are two types of hepatic P450 function tests. One type consists of non-genetic P450 function tests (CYP1A2, 2A6, 2C9/10, 2E1 and 3A3/4), and probe drugs include caffeine, catalysed by CYP1A2, coumarin by CYP2A6, phenytoin by CYP2C6, chlorzoxazone by CYP2E1, and nifedipine, erythromycin and lidocaine by CYP3A3/4. The second type of genetic P450 function tests (CYP2C19 and CYP2D6) involves probe drugs such as S-mephenytoin, catalysed by CYP2C19, and debrisoquine and sparteine, catalysed by CYP2D6. The metabolism of the probe drugs used in non-genetic P450 function tests in patients with liver disease falls into two categories: reduced (CYP1A2, CYP2C, 2E1 and 3A) and unchanged (CYP2C). In genetic P450 function tests there seems to be a lesser degree of inhibition in poor metabolizers (PMs) than extensive metabolizers (EMs) among patients with liver disease. There have been very few reports on changes in metabolism of the probe drugs used in genetic P450 function tests in liver disease. In this paper the subject is reviewed.

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Prognostic Value of the Monoethylglycinexylidide Test in Pediatric Liver Transplant Candidates

Cited by 16 publications

References 13 publications

In vivo function tests of hepatic drug-oxidizing capacity in patients with liver disease

In vivo function tests of hepatic drug-oxidizing capacity in patients with liver disease

Liquid chromatographic method for the determination of lidocaine and monoethylglycine xylidide in human serum containing various concentrations of bilirubin for the assessment of liver function

Clinical importance of non-genetic and genetic cytochrome P450 function tests in liver disease

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