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Assuming Peripheral Elimination: Its Impact on the Estimation of Pharmacokinetic Parameters of Muscle Relaxants (1999)

Laurin, Julie ; Nekka, Fahima ; Donati, François ; [et al.]

Springer

Journal of pharmacokinetics and pharmacodynamics 27 (1999), S. 491-512

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ISSN: 1573-8744

Keywords: muscle relaxants ; peripheral elimination ; pharmacokinetics ; peripheral concentrations ; volume of distribution ; pharmacokinetic model

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract For anesthetic drugs undergoing nonorgan-based elimination, there is a definite trend towards using pharmacokinetic (PK) models in which elimination can occur from both central (k10 ) and peripheral compartments(k20 ). As the latter cannot be assessed directly, assumptions have to be made regarding its value. The primary purpose of this paper is to evaluate the impact of assuming various degrees of peripheral elimination on the estimation of PK parameters. For doing so, an explanatory model is presented where previously published data from our laboratory on three muscle relaxants, i.e., atracurium, doxacurium, and mivacurium, are used for simulations. The mathematical aspects for this explanatory model as well as for two specific applications are detailed. Our simulations show that muscle relaxants having a short elimination half-life are more affected by the presence of peripheral elimination as their distribution phase occupies the major proportion of their total area under the curve. Changes in the exit site dependent PK parameters (Vdss ) are also mostly significant when k20 is smaller than k10 . Although the physiological processes that determine drug distribution and those affecting peripheral elimination are independent, the two are mathematically tied together in the two-compartment model with both central and peripheral elimination. It follows that, as greater importance is given to k20 , the rate of transfer from the central compartment (k12 ) increases. However, as a result of a proportional increase in the volume of the peripheral compartment, peripheral concentrations remain unchanged whether or not peripheral elimination is assumed. These findings point out the limitations of compartmental analysis when peripheral elimination cannot be measured directly.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1023286329945

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A kinetic-dynamic model to explain the relationship between high potency and slow onset time for neuromuscular blocking drugs (1991)

Donati, FranÇois ; Meistelman, Claude

Springer

Journal of pharmacokinetics and pharmacodynamics 19 (1991), S. 537-552

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ISSN: 1573-8744

Keywords: Modeling ; neuromuscular blocking drugs ; pharmacodynamics ; pharmacokinetics ; potency ; onset time

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract To account for experimental data showing increased onset time with increased potency of neuromuscular blocking drugs, a pharmacokinetic-pharmacodynamic model is presented. It is characterized by a finite concentration of receptors (R)in the effect compartment. Transfer from central to effect compartment is linearly related to concentration gradient. A sigmoid Emax model is used to describe the relationship between receptor occupancy and effect. Plasma concentrations found in the literature are used. Differential equations are solved numerically for equipotent doses of drugs of different potencies. Because the density of receptors constitutes a significant drain of drug molecules for potent drugs, the model predicts an inverse relationship between speed of onset and potency. The concentration of receptors in the effect compartment Rwhich best fits experimental data obtained in humans is 0.28 Μmol/L. With this value of R,onset times are prolonged when the ED95 (dose for 95% blockade) is less than 0.1 Μmol/kg. It is concluded that, in the development of a short-acting nondepolarizing neuromuscular blocking drug, agents having an ED95 of 0.1 Μmol/kg or greater appear more promising.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01062962

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Pharmacokinetic–Pharmacodynamic Modeling of Doxacurium: Effect of Input Rate (1997)

Zhu, Yali ; Audibert, Gérald ; Donati, François ; [et al.]

Springer

Journal of pharmacokinetics and pharmacodynamics 25 (1997), S. 23-37

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ISSN: 1573-8744

Keywords: pharmacokinetics ; pharmacodynamics ; neuromuscular blocking agents ; doxacurium ; input rate ; intravenous ; bolus ; infusion

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract One of the basic assumptions in pharmacokinetic–pharmacodynamic modeling (PK–PD) is that drug equilibration rate constant between plasma concentration and effect (Ke0 ) is not changed by input rate. To test this assumption in a clinical setting, a 25 μg/kg iv dose of doxacurium was administered either by bolus injection or 10-min infusion to 15 anesthetized patients. Neuromuscular function was monitored using train-of-four stimulation of the ulnar nerve. For the short infusion dose, arterial concentrations were measured at 1-min intervals during infusion and at frequent intervals thereafter. Following the iv bolus dose, the early PK profile of doxacurium was investigated by measuring doxacurium arterial concentrations every 10 sec during the first 2 min and at frequent intervals thereafter. PK–PD modeling was performed using nonparametric approach with and without including a finite receptor concentration (Rtot ) in the effect compartment. Kinetic parameters were unchanged. For the bolus and the infusion, Ke0 values were 0.053±0.006 and 0.056±0.009 min −1 , respectively. Using the Rtot model, corresponding Ke0 values were 0.148±0.016 and 0.150±0.024, respectively. The relatively faster Ke0 obtained with the Rtot model is compatible with the high potency of doxacurium. Our results show that PK–PD parameters derived with either a bolus or an infusion mode of administration are equally reliable.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1025715626164

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