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Physiological Indirect Effect Modeling of the Antilipolytic Effects of Adenosine A1-Receptor Agonists (1997)

van Schaick, Erno A. ; de Greef, Henrik J. M. M. ; Ijzerman, Adriaan P. ; [et al.]

Springer

Journal of pharmacokinetics and pharmacodynamics 25 (1997), S. 673-694

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ISSN: 1573-8744

Keywords: adenosine A1-receptor ; N 6-(p-sulfophenyl)adenosine ; NEFA ; glycerol ; pharmacokinetic–pharmacodynamic modeling ; indirect response ; validation ; conscious rats

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The relationship between blood concentrations of the adenosine A 1 -receptor agonist N6 -(p-sulfophenyI)adenosine (SPA) and its effect on both plasma nonesterified fatty acid (NEFA) and glycerol release was described on the basis of an integrated pharmacokinetic–pharmacodynamic model. An indirect response model rather than a hypothetical “link” model was used to account for the delayed response. For that purpose an empirical solution to the differential equation describing the physiological indirect response model is presented. The model-estimated rate constant for the output of the glycerol response was compared to the elimination rate constant after exogenous administration of glycerol. In a crossover designed study, chronically cannulated male Wistar rats were subjected to either SPA administration (120 μg/kg for 15 min) for measurement of the effects on glycerol, or glycerol administration for determination of glycerol pharmacokinetics. Glycerol pharmacokinetics was determined in the presence of a stable level of SPA (171±6ng/ml) to suppress endogenous glycerol levels completely. The indirect response model adequately described the relationship between SPA concentrations and plasma glycerol levels. The PD parameter estimates for EC 50 , Emax , and Hill factor were 23±2 ng/ml, 74±3% (change from baseline), and 3.3±0.5, respectively. These values were not different from those obtained when analyzing the data on basis of the differential equation directly. Furthermore the EC50 values for the reduction in glycerol or NEFA levels were identical (23±2 and 21±3 ng/ml, respectively) indicating that both PD end points reflect the same physiological process. The concentration–time profile after administration of glycerol could be described best on the basis of a biexponential function. The value for kout in the PK/PD model (0.19±0.03 min −1 ) corresponded very well to the terminal elimination rate constant determined after iv administration of glycerol (0.25±0.03 min −1 ). In conclusion, the antilipolytic effects of adenosine A 1 -receptor agonists can be described by the indirect suppression model. The rate constant describing the delay between concentration and glycerol effect was shown to be a true reflection of the removal of glycerol.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1025777700413

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Application of a Combined “Effect Compartment/Indirect Response Model” to the Central Nervous System Effects of Tiagabine in the Rat (1999)

Cleton, Adriaan ; de Greef, Henrik J. M. M. ; Edelbroek, Peter M. ; [et al.]

Springer

Journal of pharmacokinetics and pharmacodynamics 27 (1999), S. 301-323

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ISSN: 1573-8744

Keywords: pharmacokinetics ; pharmacodynamics ; effect compartment model ; indirect response ; sigmoid E max ; tiagabine ; GABA uptake inhibitor

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Pharmacological inhibition of GABA uptake transporters provides a mechanism for increasing GABAergic transmission, which may be useful in the treatment of various neurological disorders. The purpose of our investigations was to develop an integrated pharmacokinetic–pharmacodynamic (PK/PD) model for the characterization of the pharmacological effect of tiagabine, R-N-(4,4-di-(3-methylthien-2-yl)but-3-enyl)nipecotic acid, in individual rats in vivo. The tiagabine-induced increase in the amplitude of the EEG 11.5–30 Hz frequency band (β), was used as pharmacodynamic endpoint. Chronically instrumented male Wistar rats were randomly allocated to four groups which received an infusion of 3, 10, or 30 mg kg −1 $$(\bar x \pm SE,{\text{ }}n = 23)$$ $$96 \pm 9$$ ml min -1 kg−1, 1.5ŷ0.1 L kg−1 and 20ŷ0.2 min.A time delay was observed between the occurrence of maximum plasma drug concentrations and maximal response. A physiological PK/PD model has been used to account for this time delay, in which a biophase was postulated to account for tiagabine available to the GABA uptake carriers in the synaptic cleft and the increase in EEG effect was considered an indirect response due to inhibition of GABA uptake carriers. The population values for the pharmacodynamic parameters characterizing the delay in pharmacological response relative to plasma concentrations were keo=0.030 min −1 and kout=81 min−1, respectively. Because of the large difference in these values the PK/PD model was simplified to the effect compartment model. Population estimates $$(\bar x \pm SE)$$ were E0=155 ŷ 6 μV, Emax=100 ŷ 5 μV, EC50=287 ŷ 7 ng ml−1, Hill factor=1.8 ŷ 0.2 and keo=0.030 ŷ 0.002 min −1. The results of this analysis show that for tiagabine the combined “effect compartment-indirect response” model can be simplified to the classical “effect compartment” model.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1020999114109

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