Preparation Methadoxine is equimolar salt, which cationic component (pyridoxine) is 3-oxypyridine derivative, possessing B6-vitamine like activity, while anionic component is the cyclic lactame of glutamic acid. Since biopharmaceutical and pharmacological properties of this drug depend on biochemical transformation its components, of the aim of this work was to determine the structure of possible ionized pyridoxine and pyrrolidone carboxylate forms and their reaction ability in biochemical processes. Physical-chemical properties of compounds (pKa, logP, logD, proton donor/acceptor quantity, solubility (g/l)) were calculated with ACD/pKaDB program or obtained from Pub-Med physical/chemical properties database.
View Article and Find Full Text PDFThe pharmacodynamics and pharmacokinetics of hemisuccinate 3-hydroxyphenazepam (HS-3-HPh, levana)--a new hypnotic 1,4-benzodiazepine derivative--have been studied. It is established that HS-3-HPh in doses of 0.05, 0.
View Article and Find Full Text PDFBiopharmaceutical classification system (BCS) is based on solubility tests; for various drugs they correlate with their bioavailability in human body. It is widely used in design and development of innovation drugs, new dosage forms (permeability amplifiers), in clinical pharmacology (drug-drug, drug-food interaction) and also by regulation agencies of several countries as the scientific approach, for testing of waiver on bioavailability. Review considers modern concepts and theoretical bases for prediction of bioavailability according to BCS.
View Article and Find Full Text PDFBull Exp Biol Med
December 2005
Pharmacokinetics of amixin was studied after repeated administration (5 days) to animals. Perorally administered amixin is characterized by high bioavailability and is present in the circulation in high concentrations for a long time. The main pharmacokinetic parameters were estimated by the method of linear regression because of slow elimination of amixin from organs and tissues.
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December 2003
We studied the effect of lauric acid on transdermal penetration of phenazepam in vivo. It was found that treatment with lauric acid 3-fold increased the maximum anticonvulsive effect of phenazepam applied in a transdermal therapeutic system in comparison with the control. Study of the pharmacokinetics of phenazepam transdermal therapeutic system showed its higher bioavailability in the presence of lauric acid (f=0.
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