Your search keyword '"Ebling WF"' showing total 11 results

1. Precursor-dependent indirect pharmacodynamic response model for tolerance and rebound phenomena.

Author

Sharma A, Ebling WF, and Jusko WJ

Subjects

Dose-Response Relationship, Drug, Models, Biological, Pharmacokinetics, Pharmacology, Drug Tolerance physiology, Neurotransmitter Agents metabolism

Abstract

A precursor-dependent model of indirect pharmacodynamic response which can describe tolerance and rebound was characterized in terms of the effects of changes in the fundamental properties of the drug on its response profiles. The model extends previous models by considering inhibition or stimulation of production of the response variable dependent on the amount of precursor which may accumulate or deplete after administration of some drugs. Standardized pharmacokinetic and pharmacodynamic parameters were used for generating dose, plasma concentration, and response-time profiles using computer simulations. The peak response (Rmax) and the time of its occurrence (TRmax) were dependent on the dose, degree of maximum inhibition (Imax) or stimulation (Smax), and drug concentrations causing 50% inhibition (IC50) or stimulation (SC50). The maximum rebound (RBmax) and the time of its occurrence (TRBmax) after a single bolus dose were also dependent on these factors, but were of lesser magnitude and showed relatively later occurrence. Interestingly, values of area between the baseline and effect curve (ABEC) and area between the baseline and rebound curve (ABRC) were equal for each set of conditions for each model, but the latter is reduced when there is a second pathway for loss of precursor. Tolerance occurs because of diverse mechanisms, and the response patterns demonstrated may be helpful in describing tolerance and rebound phenomena for drugs which affect precursor pools.

Published

1998

2. Steady-state propofol brain:plasma and brain:blood partition coefficients and the effect-site equilibration paradox.

Author

Dutta S, Matsumoto Y, Muramatsu A, Matsumoto M, Fukuoka M, and Ebling WF

Subjects

Analysis of Variance, Anesthetics, Intravenous blood, Animals, Male, Models, Biological, Propofol blood, Rats, Rats, Wistar, Solubility, Anesthetics, Intravenous pharmacokinetics, Blood-Brain Barrier, Brain metabolism, Propofol pharmacokinetics

Abstract

Based on volume-flow relationships, CNS agents that are highly lipid soluble (log octanol-water partition coefficient > 2) are expected to have equilibration half-times (T1/2 kE0) that are proportional to brain solubility. Propofol, the most lipophilic anaesthetic in clinical use, has T1/2 kE0 values of 1.7 and 2.9 min in rats and humans, respectively, compared with an expected value of at least 8 min. As a first step in exploring this discrepancy between observed and predicted values, we determined the steady state brain:plasma and brain:blood partition coefficients in rats after a 4-h infusion of propofol. Brain:plasma and brain:blood partition coefficients were 8.2 (SD 1.6) and 3.0 (0.5), respectively. T1/2 kE0 predictions based on brain: blood partitioning in rats are more in agreement with the observed equilibration half-time, suggesting that drug bound to the formed elements of blood participates in the uptake and transfer of propofol to its effect site.

Published

1998

3. Propofol pharmacokinetics and pharmacodynamics assessed from a cremophor EL formulation.

Author

Dutta S, Matsumoto Y, and Ebling WF

Subjects

Anesthetics, Intravenous blood, Animals, Chromatography, High Pressure Liquid, Electroencephalography, Half-Life, Male, Propofol blood, Rats, Rats, Wistar, Anesthetics, Intravenous pharmacokinetics, Anesthetics, Intravenous pharmacology, Glycerol analogs & derivatives, Pharmaceutical Vehicles, Propofol pharmacokinetics, Propofol pharmacology

Published

1997

4. Parameter estimability of biphasic response models.

Author

Dutta S and Ebling WF

Subjects

Models, Biological, Monte Carlo Method, Reproducibility of Results, Anesthetics pharmacology

Abstract

Pharmacodynamics of general anesthetic agents generally exhibit biphasic concentration-effect relationships (i.e., an activation phase at low concentrations and inhibition at higher concentrations). These relationships are usually characterized with biphasic models constructed from various combinations and modifications of the nonlinear sigmoid E(MAX) model. We tested and quantified the parameter estimability of the simplest additive biphasic pharmacodynamic models by a Monte Carlo method. The estimated model parameters were used to calculate descriptors of the concentration-effect data. Parameters and descriptors were compared with their true values. When the IC50/EC50 ratio was low (<10), E(MAX), EC50, and IC50 were poorly estimated (high coefficient of variation and pronounced bias). However, the fit to the data was excellent, and the data descriptors calculated from the estimated model parameters demonstrated high precision and accuracy. Baseline effect (E0) was estimated with good precision and accuracy. As the IC50/EC50 ratio was increased, the estimability of model parameters and data descriptors improved, with the data descriptors continuing to be more estimable than model parameters. Thus, model parameters become estimable when there is sufficient separation between EC50 and IC50 to produce a plateauing of peak effect (activation), which can be observed directly from the data signature. Data descriptors are not subject to this limitation and thus may serve as better metrics for summarizing concentration-effect relationships.

Published

1997

5. Concentration-EEG effect relationship of propofol in rats.

Author

Dutta S, Matsumoto Y, Gothgen NU, and Ebling WF

Subjects

Anesthetics, Intravenous blood, Anesthetics, Intravenous pharmacokinetics, Animals, Blood-Brain Barrier, Chromatography, High Pressure Liquid, Electrochemistry, Electroencephalography, Male, Propofol blood, Propofol pharmacokinetics, Rats, Rats, Wistar, Anesthetics, Intravenous pharmacology, Propofol pharmacology

Abstract

Propofol is a unique highly lipid-soluble anesthetic that is formulated in a fat emulsion (Diprivan) for intravenous (i.v.) use. It has the desirable properties of rapid onset and offset of effect following rapid i.v. administration and minimal accumulation on long-term administration. Based on physicochemical properties and preliminary brain solubility data, propofol should have an extended effect-site turnover and a resulting prolonged effect. However, a preliminary study in humans has reported a rapid blood-brain equilibration half-time (T1/2 kE0) of only 2.9 min. We used a chronically instrumented rat model to examine the unique disposition and electroencephalographic (EEG) pharmacodynamics of propofol. Although the pharmacokinetics were variable, there was low interindividual variability in the concentration-EEG effect relationship. The duration of EEG sleep was 26 (+/- 44% CV) min following 11-15 mg/kg doses of propofol. The T1/2 kE0 was 1.7 (+/- 32%) min. Apparent effect-site concentrations of 0.5-1 microg/mL were required to maintain sleep in rats. Like other general anesthetics, the concentration-EEG effect relationship of propofol is biphasic. At a propofol concentration of 0.6 (+/- 35%) microg/mL, the number of EEG waves/s was maximal at 175% of baseline awake state. Further increases in the concentration of propofol depressed EEG activity until complete suppression occurred at 7 (+/- 22%) microg/mL.

Published

1997

6. High-performance liquid chromatographic assay of propofol in human and rat plasma and fourteen rat tissues using electrochemical detection.

Author

Dowrie RH, Ebling WF, Mandema JW, and Stanski DR

Subjects

Animals, Chromatography, High Pressure Liquid statistics & numerical data, Electrochemistry, Humans, Organ Specificity, Propofol analysis, Propofol pharmacokinetics, Rats, Sensitivity and Specificity, Tissue Distribution, Chromatography, High Pressure Liquid methods, Propofol blood

Abstract

This paper describes a sensitive HPLC-electrochemical detection analytical method for determining the concentration of the intravenous anesthetic, propofol, in human or rat plasma or serum and a variety of rat tissues. Internal standard and drug are extracted from serum or plasma and other tissues with pentane. 2,6-tert.-Butylmethylphenol is used as internal standard. It includes a novel steam distillation procedure for separating the highly lipophilic propofol from skin and fat. The plasma/serum assay has a precision of 1-4% (C.V.) in the range 10 ng/ml to 1 microgram/ml and permits the assay of assay of 5 ng/ml from 0.1 ml of plasma/serum. The tissue procedure allows the estimation of 50 ng/g in 0.1 g of tissue for most of the major organs with less than 2% (C.V.) precision. This assay was used to measure propofol concentrations in plasma/serum and tissue samples in support of a project to develop a physiological pharmacokinetic model for propofol in the rat.

Published

1996

7. Is it possible to estimate the parameters of the sigmoid Emax model with truncated data typical of clinical studies?

Author

Dutta S, Matsumoto Y, and Ebling WF

Subjects

Evaluation Studies as Topic, Dose-Response Relationship, Drug, Models, Theoretical, Statistics as Topic methods

Abstract

Many drug concentration-effect relationships are described by the nonlinear sigmoid E(max) model. Clinical considerations frequently limit the magnitude of effect intensity that may be produced; the most pronounced effect intensity may be considerably below E(max). We have tested and quantified the influence of this limitation on the estimatability of the sigmoid E(max) model parameters. We have used the estimated parameter values to calculate data descriptors (drug concentrations required to produce certain effect intensities) and compared these with concentrations determined by using exact parameter values. We found that when the highest measured effect intensity was less than 95% of E(max), E(max) and EC50 were poorly estimated (high coefficient of variation and pronounced bias). Nevertheless, the fit to the data was quite good and the data descriptors were estimated with precision within the range for which data were available but not beyond. Baseline effect was estimated with good precision but the sigmoidicity parameter (gamma) was highly variable. Thus, where clinical considerations prevent determination of concentration-effect data near the maximum effect intensity, E(max) and EC50 estimations are unreliable. The use of estimable data descriptors is proposed to characterize the concentration-effect relationship under these conditions.

Published

1996

8. Analysis of cortisol, methylprednisolone, and methylprednisolone hemisuccinate. Absence of effects of troleandomycin on ester hydrolysis.

Author

Ebling WF, Szefler SJ, and Jusko WJ

Subjects

Adult, Child, Female, Humans, Hydrocortisone blood, Hydrolysis, Kinetics, Liver metabolism, Male, Methylprednisolone blood, Hydrocortisone analysis, Methylprednisolone analogs & derivatives, Methylprednisolone analysis, Methylprednisolone Hemisuccinate analysis, Troleandomycin pharmacology

Abstract

A sensitive, selective, and reproducible high-performance liquid chromatographic assay for the simultaneous measurement of cortisol and methylprednisolone using dexamethasone as the internal standard is presented. Samples are extracted with methylene chloride, washed with sodium hydroxide and then water, and chromatographed on a microparticle silica gel column with ultraviolet detection at 254 nm. Sensitivity is greater than 10 ng/ml and the intra-day coefficient of variation is less than 5% for both steroids. The use of porcine liver esterase allows the quantitation of the hemisuccinate ester of methylprednisolone. This assay has been applied in pharmacokinetic studies including investigations of troleandomycin--methylprednisolone interactions. A typical plasma concentration--time profile for methylprednisolone and its ester prodrug is presented for one subject before and after receiving troleandomycin therapy. Although methylprednisolone elimination is reduced in the presence of troleandomycin therapy, there is no effect on the pharmacokinetics of methylprednisolone sodium succinate.

Published

1984

9. 6 alpha-Methylprednisolone and 6 alpha-methylprednisone plasma protein binding in humans and rabbits.

Author

Ebling WF, Milsap RL, Szefler SJ, and Jusko WJ

Subjects

Animals, Chromatography, High Pressure Liquid, Dialysis, Drug Stability, Humans, Prednisone blood, Protein Binding, Rabbits, Receptors, Steroid metabolism, Species Specificity, Blood Proteins metabolism, Methylprednisolone blood, Prednisone analogs & derivatives

Abstract

The binding of 6 alpha-methylprednisolone and 6 alpha-methylprednisone to proteins of rabbit and human plasma was studied in vitro by equilibrium dialysis. Steroid binding was determined using radiolabeled compounds and HPLC analysis methods. Both methods produced equivalent results. Plasma protein binding of 6 alpha-methylprednisolone and 6 alpha-methylprednisone averaged 75-82% and was independent of steroid concentration, suggestive of low affinity, nonspecific protein binding. A positive linear correlation of the log octanol-water partition coefficient with the nonspecific binding affinities of a homologous series of steroids, including 6 alpha-methylprednisolone and 6 alpha-methylprednisone, was demonstrated. This correlation suggests that hydrophobic binding is a major determinant of nonspecific steroid-protein interactions.

Published

1986

10. Chlorothiazide absorption from solution and tablet dosage forms in dogs.

Author

Ebling WF, Murro AF, Voelker FJ, Resetarits DE, and Bates TR

Subjects

Animals, Biological Availability, Chlorothiazide administration & dosage, Dogs, Female, Intestinal Absorption, Male, Solutions, Tablets, Time Factors, Chlorothiazide metabolism

Abstract

The bioavailability of an aqueous solution of chlorothiazide and three commercially available chlorothiazide tablets was assessed in adult mongrel dogs. In two crossover urinary excretion studies, six fasting dogs received single 500-mg doses of chlorothiazide as an aqueous solution, one 500-mg originator tablet on two separate occasions (Tablets A-1 and A-2), two 250-mg originator tablets (Tablet B), or one 500-mg generic tablet (Tablet C). 6-Amino-4-chlorobenzene-1,3-disulfonamide )chloraminophenamide), a pharmacologically active hydrolysis product of chlorothiazide was not detected in any urine sample. Urinary recoveries of chlorothiazide after oral administration, expressed as the mean (range) percent of the dose, was only 22.0 (8.41-33.9), 15.7 (10.2-25.0), 20.7 (7.25-31.0), 18.5 (8.72-33.2), and 21.9% (6.69-41.1%) for the aqueous solution and Tablets A-1, A-2, B, and C, respectively. Considerable interindividual variation and some intraindividual variation were observed. No statistically significant difference in bioavailability existed among the aqueous solution and Tablets A-2 and B, between Tablets A-1 and C, and between Tablets A-1 and A-2.

Published

1981

11. High-performance liquid chromatographic method for determining thiopental concentrations in twelve rat tissues: application to physiologic modeling of disposition of barbiturate.

Author

Ebling WF, Mills-Williams L, Harapat SR, and Stanski DR

Subjects

Adipose Tissue analysis, Animals, Barbiturates analysis, Barbiturates pharmacokinetics, Brain Chemistry, Chromatography, High Pressure Liquid, Liver analysis, Rats, Rats, Inbred Strains, Spectrophotometry, Ultraviolet, Thiopental pharmacokinetics, Tissue Distribution, Thiopental analysis

Abstract

A sensitive, selective and reproducible high-performance liquid chromatographic assay of thiopental concentrations in twelve rat tissues was developed using thiamylal as the internal standard. Samples were homogenized in phosphate buffer, extracted into pentane and chromatographed on a microparticulate octadecyl reversed-phase column using ultraviolet detection at 290 nm. A simple digestive step with collagenase prior to homogenization facilitated analysis of thiobarbiturate in skin. Thiopental extraction recovery from fat exceeded 90%. Assay sensitivity was greater than 1 microgram/ml for tissue and plasma samples as small as 50 microliters. This assay has been applied to physiologic pharmacokinetic studies. The paper also presents typical concentration-time profiles of thiopental in four tissues taken from 74 rats given 20 mg/kg thiopental.

Published

1989