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Application of the axial dispersion model of hepatic drug elimination to the kinetics of diazepam in the isolated perfused rat liver (1992)

Diaz-Garcia, Juan M. ; Evans, Allan M. ; Rowland, Malcolm

Springer

Journal of pharmacokinetics and pharmacodynamics 20 (1992), S. 171-193

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ISSN: 1573-8744

Keywords: diazepam ; hepatic elimination ; physiologic models ; dispersion model ; isolated perfused rat liver ; protein binding

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The application of the axial dispersion model to diazepam hepatic elimination was evaluated using data obtained for several conditions using the single-pass isolated perfused rat liver preparation. The influence of alterations in the fraction unbound in perfusate (fu) and perfusate flow (Q) on the availability (F) of diazepam was studied under steady conditions (n=4 in each case). Changes in fu were produced by altering the concentration of human serum albumin (HSA) in the perfusion medium while maintaining diazepam concentration at 1 mg L−1. In the absence of protein (fu = 1), diazepam availability was 0.011 ±0.005 (¯x±SD). 〉As fu decreased, availability progressively increased and at a HSA concentration of 2% (g/100 ml), whenfu was 0.023, diazepam availability was 0.851 ±0.011. Application of the axial dispersion model to the relationship betweenfu andF provided estimates for the dispersion numbe (D N) of 0.337±0.197, and intrinsic clearance (CL int) of 132±34 ml min−1. The availability of diazepam during perfusion with protein-free media was also studied at three different flow rates (15, 22.5, and 30 ml min−1). Diazepam availability always progressively increased as perfusate flow increased, with the axial dispersion model yielding estimates forD N of 0.393 ± 0.128 andCL int of 144 ±38 ml min−1. The transient form of the two-compartment dispersion model was also applied to the output concentration versus time profile of diazepam after bolus input of a radiolabeled tracer into the hepatic portal vein (n=4), providingD N andCL int estimates of 0.251 ±0.093 and 135±59 ml min−1, respectively. Hence, all methods provided similar estimates forD N andCL int. Furthermore, the magnitude of DNis similar to that determined for noneliminated substances such as erythrocytes, albumin, sucrose, and water. These findings suggest that the dispersion of diazepam in the perfused rat liver is determined primarily by the architecture of the hepatic microvasculature.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01071000

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Physiologic modeling of cyclosporin kinetics in rat and man (1991)

Bernareggi, Alberto ; Rowland, Malcolm

Springer

Journal of pharmacokinetics and pharmacodynamics 19 (1991), S. 21-50

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ISSN: 1573-8744

Keywords: cyclosporin ; physiologic pharmacokinetic model ; intravenous infusion ; rat ; man ; osmotic pumps ; distribution study ; RIA ; organs blood content ; interspecies scaling

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract A physiologic pharmacokinetic model of cyclosporin has been developed in the rat aimed at predicting the time course of drug concentrations in blood, organs, and tissues. The model assumes that tissue distribution is perfusion-rate limited and that each tissue acts as a well-stirred compartment. The unbound equilibrium distribution ratios as well as the values of the fraction unbound and the distributon isotherm of cyclosporin between erythrocytes and plasma are included in the rate equations describing the time course of the drug concentration in each tissue. Parameter values for the rat were obtained experimentally from a continuous infusion study, in which 2.7 and I3.9mg/kg per day doses of cyclosporin were administered subcutaneously to each of two groups of rats by osmotic pumps for 6 days. Steady-state cyclosporin concentrations in blood, CSF, and 18 different organs and tissues, were determined by a monoclonal antibody RIA. Differences in values of the unbound equilibrium distribution ratios in some tissues and unbound clearance indicated that both the processes of distribution and elimination may have elements of nonlinearity over the range of dosing rales tested. The model was evaluated in the rat with a kinetic experiment in which a 6-mg/kg dose of cyclosporin was infused intravenously over 15 min, with measurements of blood concentrations until 56 hr. Good agreement was obtained for the volume of distribution at steady state (blood), V xs between the perfusion model and that calculated from the kinetic experiment. Also, the model prediction of the blood concentration temporal profile agreed closely with that observed except in the early moments, when distribution out of blood occurred considerably slower than predicted. On scaling the model up to humans, good agreement was found between the predicted plasma concentration-time profile and V ss ,and experimental data from the literature. Both rat and human data suggest that partition into adipose tissue plays an important role in the pharmacokinetics of cyclosporin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01062191

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Protein binding and hepatic clearance: Discrimination between models of hepatic clearance with diazepam, a drug of high intrinsic clearance, in the isolated perfused rat liver preparation (1984)

Rowland, Malcolm ; Leitch, David ; Fleming, George ; [et al.]

Springer

Journal of pharmacokinetics and pharmacodynamics 12 (1984), S. 129-147

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ISSN: 1573-8744

Keywords: diazepam ; protein binding ; models of hepatic elimination ; hepatic clearance ; rat ; isolated perfused liver

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The influence of protein binding on the extraction ratio, and availability, of diazepam has been examined in the single-pass isolated perfused rat liver preparation. Binding of diazepam was varied by adjusting the concentration of albumin in the perfusate. In the absence of binding the extraction ratio of diazepam was high, 0.93–0.995. Extraction decreased dramatically as the degree of binding was increased. The data are more consistent with the “parallel-tube” model than with the “well-stirred” model, two perfusion models that have been used to describe hepatic drug elimination.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01059274

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Saturable Binding of Cyclosporin A to Erythrocytes: Estimation of Binding Parameters in Renal Transplant Patients and Implications for Bioavailability Assessment (1988)

Legg, Brian ; Rowland, Malcolm

Springer

Pharmaceutical research 5 (1988), S. 80-85

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ISSN: 1573-904X

Keywords: cyclosporin ; saturable binding ; erythrocyte ; bioavailability ; therapeutic drug monitoring

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Cyclosporin (CyA) exhibits saturable binding to erythrocytes. A one-site binding model was fitted to data from renal transplant patients receiving CyA therapy. The average maximum binding capacity is 2560 µg CyA/liter of packed erythrocytes; the unbound CyA concentration associated with 50% saturation of the binding site is 67 µg/liter. Analysis indicates that whole-blood CyA measurement to monitor drug therapy should be viewed cautiously, particularly when the hematocrit varies considerably. The error in estimating absolute bioavailability at steady state from whole-blood measurements, resulting as a consequence of the saturable binding, has been explored. Although extrapolation to the therapeutic situation, which involves transient drug administration, is difficult, errors of up to 25% are anticipated. When an accurate estimate of bioavailability is required, analysis based on plasma data is proposed. For bioequivalence testing, both blood and plasma CyA data are equally acceptable.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1015932032609

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