ISSN:
1573-904X
Keywords:
benzodiazepines
;
pharmacokinetics
;
EEG
;
operational model of agonism
;
receptor binding
;
muscimol-induced Cl−uptake
Source:
Springer Online Journal Archives 1860-2000
Topics:
Chemistry and Pharmacology
Notes:
Abstract Purpose. A mechanism-based model is applied to analyse adaptivechanges in the pharmacodynamics of benzodiazepines upon chronictreatment in rats. Methods. The pharmacodynamics of midazolam was studied in ratswhich received a constant rate infusion of the drug for 14 days, resultingin a steady-state concentration of 102 ± 8 ng·ml−1. Vehicle treated ratswere used as controls. Concentration-EEG effect data were analysed onbasis of the operational model of agonism. The results were comparedto data obtained in vitro in a brain synaptoneurosomal preparation. Results. The relationship between midazolam concentration and EEGeffect was non-linear. In midazolam pre-treated rats the maximum EEGeffect was reduced by 51 ± 23 μV from the original value of 109 ±15 μV in vehicle treated group. Analysis of this change on basis ofthe operational model of agonism showed that it can be explained bya change in the parameter tissue maximum (Em) rather than efficacy(τ). In the in vitro studies no changes in density, affinity or functionalityof the benzodiazepine receptor were observed. Conclusions. It is concluded that the observed changes in theconcentration-EEG effect relationship of midazolam upon chronic treatmentare unrelated to changes in benzodiazepine receptor function.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1023/A:1007505223519
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