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The unit impulse response procedure for the pharmacokinetic evaluation of drug entry into the central nervous system (1989)

Bree, Joost B. M. M. ; Baljet, Anne V. ; Geyt, Anton ; [et al.]

Springer

Journal of pharmacokinetics and pharmacodynamics 17 (1989), S. 441-462

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ISSN: 1573-8744

Keywords: drug transport ; blood-brain barrier ; central nervous system ; numerical deconvolution ; computer simulations ; rat ; atenolol ; acetaminophen ; antipyrine

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The unit impulse response theory has been adapted to characterize the transport profile of drugs into the central nervous system (CNS). From the obtained input function, the cumulative plasma volume (V) cleared by transport into the CNS in time can be calculated. Simulation studies demonstrated that transport governed by passive diffusion resulted in a linear relationship between V and time, while the slope of the line, the blood- brain barrier (BBB) clearance, proved to be an adequate and model independent parameter to characterize drug transport into the CNS. The error in the result of the numerical procedure could be limited to less than 10% of the theoretically predicted value. Superposition of 5 or 10% random noise on simulated data did not result in significant differences between the calculated and theoretically predicted clearance values. Simulations of carrier-mediated transport resulted in nonlinear transport curves; the degree of nonlinearity, and thus the detectability, was dependent on the initial degree of saturation of the system, the rate of desaturation, as caused by drug elimination processes and the noise level on the data. In vivoexperiments in the rat were performed, using atenolol, acetaminophen, and antipyrine as model drugs. Linear transport relationships were obtained for all drugs, indicating that transport was dependent on passive diffusion or a low affinity carrier system. BBB- clearance values were 7±1 μl/min for atenolol, 63±7 ul/min for acetaminiphen and 316±25 μl/min for antipyrine. These experiments validate the applicability of the presented technique in in vivostudies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01061457

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Pharmacokinetic modeling of the anticonvulsant response of oxazepam in rats using the pentylenetetrazol threshold concentration as pharmacodynamic measure (1988)

Dingemanse, Jasper ; Sollie, Frans A. E. ; Breimer, Douwe D. ; [et al.]

Springer

Journal of pharmacokinetics and pharmacodynamics 16 (1988), S. 203-228

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ISSN: 1573-8744

Keywords: oxazepam ; pharmacokinetics ; pharmacodynamics ; anticonvulsant response ; pentylenetetrazol threshold ; kinetic-dynamic model

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract This investigation developed strategies along which the anticonvulsant effect of oxazepam in the rat could be pharmacokinetically modeled. After determination of the pharmacokinetics of oxazepam, which could be described with a two-compartment model (halflives of distribution and elimination 6 and 52 min, respectively), the drug was administered iv to groups of animals to achieve a serum concentration range of 0.1–2.5 mg/L at 10, 45, and 120 min after administration. At these time points pentylenetetrazol (PTZ) was infused slowly until the first myoclonic jerk occurred. The anticonvulsant response, expressed as the elevation of the serum or brain threshold concentration of PTZ, was modeled versus the serum (both total and free) and brain oxazepam concentration, according to the sigmoid E max model. The total serum and brain oxazepam EC50 values are about 0.5 mg/L and 1.1 mg/kg, respectively, and E max 120 mg/L PTZ. No marked differences in pharmacodynamic parameters between the three time groups were found, which indicates that serum and brain are pharmacokinetically indistinguishable from the effect compartment, that there is no (inter) activity of oxazepam metabolites and absence of development of acute tolerance during the investigated time frame. An interfering role of metabolites was also excluded by a direct radioreceptor assay of oxazepam, yielding very similar results as the specific Chromatographic assay. It is concluded that the concentration-anticonvulsant effect relationship of oxazepam can satisfactorily be described by the sigmoid E max model, when utilizing the employed experimental strategies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01062261

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Relationship Between Receptor Occupancy at 37°C and the Anticonvulsant Effect of Flunitrazepam in Rats (1989)

Hollander-Jansen, Marijke ; Dingemanse, Jasper ; Langemeijer, Mariska W. E. ; [et al.]

Springer

Pharmaceutical research 6 (1989), S. 585-591

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ISSN: 1573-904X

Keywords: flunitrazepam ; anticonvulsant effect ; receptor occupancy ; kinetics-dynamics

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract In this investigation an attempt was made to evaluate quantitatively the relationship between benzo-diazepine receptor occupancy and the anticonvulsant effect of flunitrazepam in rats. A graded measure of anticonvulsant effect was obtained on the basis of an elevation of pentylenetetrazol (PTZ) threshold concentrations. The concentration–anticonvulsant effect relationship could be described by the E max model with an EC50 in cerebrospinal fluid of 2.9 ± 0.8 µg/liter and an E max of 227 ± 22 mg/liter PTZ (mean ± SE). In vitro receptor occupancy was determined in a crude brain homogenate at 0 and 37°C, which yielded K D values of 2.2 ± 0.2 and 26 ± 2 µg/liter, respectively. The results obtained in both experiments were combined by focusing on free flunitrazepam concentrations. This strategy resulted in a nonlinear relationship between receptor occupancy and anticonvulsant effect of flunitrazepam, with 90% of the maximum response achieved at a degree of receptor occupancy of approximately 50% at 37°C.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1015901414495

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