An imidazobenzodiazepine that is 4H-imidazo[1,5-a][1,4]benzodiazepine which is substituted by a methyl, 2-fluorophenyl and chloro groups at positions 1, 6 and 8, respectively.
Chemical ID:
MESH:D008874
Note: Use of the qualifier "multiple interactions" designates that the annotated interaction
is comprised of a complex set of reactions and/or regulatory events, possibly involving
additional chemicals and/or gene products.
[3-hydroxyflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [5-hydroxyflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [6-hydroxyflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [6-methylflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [7-hydroxyflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [[3-hydroxyflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[5-hydroxyflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[6-hydroxyflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[6-methylflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[7-hydroxyflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[alpha-naphthoflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[artemetin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[beta-Naphthoflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[chrysin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[eupatilin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[flavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[galangin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[nobiletin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[sinensetin analog results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[sinensetin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [[tangeretin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [alpha-naphthoflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [artemetin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [beta-Naphthoflavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [Carbamazepine results in increased expression of CYP3A4 protein] which results in decreased abundance of Midazolam; [chrysin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [CYP3A4 protein results in increased hydroxylation of Midazolam] which results in increased abundance of 1-hydroxymethylmidazolam; [CYP3A4 protein results in increased hydroxylation of Midazolam] which results in increased abundance of 4-hydroxymidazolam; [CYP3A4 protein results in increased hydroxylation of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam; [CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 4-hydroxymidazolam; [Dexamethasone results in increased expression of CYP3A4 protein] which results in decreased abundance of Midazolam; [eupatilin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [flavone results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [galangin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [Ketoconazole results in decreased activity of CYP3A4 protein] which results in decreased hydroxylation of Midazolam; [Ketoconazole results in decreased activity of CYP3A4 protein] which results in decreased metabolism of Midazolam; [L 754394 results in decreased activity of CYP3A4 protein] which results in decreased hydroxylation of Midazolam; [nobiletin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [Pioglitazone results in increased expression of CYP3A4 protein] which results in decreased abundance of Midazolam; [Rifampin results in increased expression of CYP3A4 protein] which results in decreased abundance of Midazolam; [sinensetin analog results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [sinensetin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; [tangeretin results in increased activity of CYP3A4 protein] which results in increased metabolism of Midazolam; acacetin inhibits the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 4-hydroxymidazolam]; acacetin promotes the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam]; allyl methyl disulfide inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Amiodarone inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Apigenin inhibits the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 4-hydroxymidazolam]; Apigenin promotes the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam]; Atorvastatin inhibits the reaction [CYP3A4 protein affects the metabolism of Midazolam]; bufalin promotes the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; bufogenin promotes the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; caryophyllene inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; cinobufagin promotes the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; citral inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Curcumin inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; CYP3A4 protein inhibits the reaction [Rifampin results in decreased hydroxylation of Midazolam]; deoxyelephantopin inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Diltiazem inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; erdafitinib inhibits the reaction [[CYP3A4 protein results in increased hydroxylation of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam]; erdafitinib inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Eucalyptol inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; flavanone inhibits the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 4-hydroxymidazolam]; flavanone promotes the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam]; flavone inhibits the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 4-hydroxymidazolam]; flavone promotes the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam]; Fluvastatin inhibits the reaction [CYP3A4 protein affects the metabolism of Midazolam]; fructus schizandrae, radix ginseng, radix ophiopogonis drug combination affects the reaction [CYP3A4 protein affects the metabolism of Midazolam]; Fusidic Acid inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; galangin inhibits the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 4-hydroxymidazolam]; galangin promotes the reaction [[CYP3A4 protein results in increased oxidation of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam]; gingerol inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Ketoconazole inhibits the reaction [CYP3A4 protein results in decreased abundance of Midazolam]; Ketoconazole inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Ketoconazole inhibits the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; Limonene inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Midazolam inhibits the reaction [CYP3A4 protein results in decreased methylation of Etoposide]; Midazolam inhibits the reaction [CYP3A4 protein results in decreased methylation of Teniposide]; Midazolam inhibits the reaction [CYP3A4 protein results in increased oxidation of 7-benzyloxy-4-trifluoromethylcoumarin]; Mifepristone inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Mifepristone inhibits the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; muscone promotes the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; NADP deficiency inhibits the reaction [erdafitinib inhibits the reaction [[CYP3A4 protein results in increased hydroxylation of Midazolam] which results in increased chemical synthesis of 1-hydroxymethylmidazolam]]; NADP deficiency inhibits the reaction [erdafitinib inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]]; Oleanolic Acid inhibits the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; Pantoprazole inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; potassium ferricyanide inhibits the reaction [Diltiazem inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]]; potassium ferricyanide promotes the reaction [Diltiazem inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]]; rabeprazole-thioether inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Rifampin inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Rifampin promotes the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; shexiang baoxin promotes the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; Troleandomycin inhibits the reaction [CYP3A4 protein results in increased hydroxylation of Midazolam]; Troleandomycin inhibits the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; Verapamil inhibits the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; YM 758 inhibits the reaction [CYP3A4 protein results in increased metabolism of Midazolam]; zafirlukast inhibits the reaction [CYP3A4 protein results in increased metabolism of Midazolam]