Lidocaine metabolism (Homo sapiens)
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Description
Lidocaine is primarily metabolized by CYP1A2 but minor involvement of CYP3A4 is observed too. Based on KEGG
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Ontology Terms
Bibliography
- Isohanni MH, Neuvonen PJ, Olkkola KT; ''Effect of fluvoxamine and erythromycin on the pharmacokinetics of oral lidocaine.''; Basic Clin Pharmacol Toxicol, 2006 PubMed Europe PMC Scholia
- Wang JS, Backman JT, Wen X, Taavitsainen P, Neuvonen PJ, Kivistö KT; ''Fluvoxamine is a more potent inhibitor of lidocaine metabolism than ketoconazole and erythromycin in vitro.''; Pharmacol Toxicol, 1999 PubMed Europe PMC Scholia
- Orlando R, Piccoli P, De Martin S, Padrini R, Floreani M, Palatini P; ''Cytochrome P450 1A2 is a major determinant of lidocaine metabolism in vivo: effects of liver function.''; Clin Pharmacol Ther, 2004 PubMed Europe PMC Scholia
History
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External references
DataNodes
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Name | Type | Database reference | Comment |
---|---|---|---|
2,6-xylidine | Metabolite | CHEBI:28738 (ChEBI) | |
2-amino-3-methylbenzoate | Metabolite | 4161142 (PubChem-compound) | |
3-hydroxylidocaine | Metabolite | 161824 (PubChem-compound) | |
3-hydroxymonoethyl glycinexylidide | Metabolite | C16572 (KEGG Compound) | |
4-hydroxy- 2,6-dimethylaniline | Metabolite | CHEBI:55545 (ChEBI) | |
CYP1A2 | GeneProduct | ENSG00000140505 (Ensembl) | |
CYP3A4 | GeneProduct | ENSG00000160868 (Ensembl) | |
Lidocaine | Metabolite | HMDB14426 (HMDB) | |
glycinexylidide | Metabolite | CHEBI:357241 (ChEBI) | |
monoethyl glycinexylidide | Metabolite | 24415 (PubChem-compound) |
Annotated Interactions
No annotated interactions