Overview of model‐building strategies in population PK/PD analyses: 2002–2004 literature survey

Dartois, C; Brendel, Karl; Comets, Emmanuelle; Laffont, Céline M.; Laveille, Christian; Tranchand, Brigitte; Mentré, France; Lemenuel‐Diot, Annabelle; Girard, Pascal

doi:10.1111/j.1365-2125.2007.02975.x

Cited by 80 publications

(67 citation statements)

References 26 publications

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“…In addition to noncompartmental pharmacokinetic analysis, the pharmacokinetic model that describes the parent drug and M1 in portal and jugular veins was developed to evaluate pharmacokinetic parameters using the nonlinear mixed effect model (NONMEM) (Beal and Sheiner, 1992). The NONMEM technique has been widely used and applied to preclinical and clinical pharmacokinetic and pharmacokinetic-pharmacodynamic analyses of many xenobiotics (Yukawa, 1999;Bauer et al, 2007;Dartois et al, 2007;Yamazaki et al, 2008). In the present study, the compartmental pharmacokinetic modeling provided insights into the disposition and biotransformation rates of PNU96391 and M1, suggesting that the modeling could add further advantages to the SI coadministration approach.…”

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confidence: 78%

Application of Stable Isotope Methodology in the Evaluation of the Pharmacokinetics of (S,S)-3-[3-(Methylsulfonyl)phenyl]-1-propylpiperidine Hydrochloride in Rats

Yamazaki

Toth²,

Kimoto³

et al. 2009

Drug Metab Dispos

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ABSTRACT:The primary objective of this study was to demonstrate the use of stable isotope (SI)-labeled compound as an approach for pharmacokinetic analysis such as fraction absorbed, hepatic extraction ratio, and fraction metabolized from the parent drug to a metabolite. (S,S)-3-[3-(Methylsulfonyl)phenyl]-1-propylpiperidine hydrochloride (PNU96391) was selected as the model compound because of its simple biotransformation pathway, i.e., the predominant metabolic pathway to the N-despropyl metabolite (M1), which makes it a suitable candidate. The second objective was to fully characterize the pharmacokinetics of PNU96391 in rats using the SI coadministration approach with quantitative analysis by liquid chromatography-tandem mass spectrometry. Overall the present study showed that 1) absorption of PNU96391 from the gastrointestinal tract was near complete (>90% of the dose), 2) PNU96391 was predominantly metabolized to M1 (approximately 70% of the dose), and 3) M1 was exclusively eliminated into urine with negligible biotransformation (ratio of renal clearance to plasma clearance Ϸ0.9). Therefore, the present study demonstrated the utility of the SI methodology for characterizing the pharmacokinetics of a compound within the drug discovery and development process. Furthermore, the compartmental pharmacokinetic modeling provided insights into the disposition and biotransformation rates of PNU96391 and M1, suggesting that the modeling could add further advantages to the SI coadministration approach. Despite the greater availability of SI-labeled compounds, absorption, distribution, metabolism, and excretion (ADME) scientists have yet to take full advantage of the potential use of these analogs for mechanistic ADME studies. These SI-labeled compounds can be used more widely to gain a better understanding of ADME properties in drug discovery and development.Therapeutic drugs are most often administered orally, and the majority of these are intended to act systemically. A number of important factors limit systemic availability of orally administered drugs; therefore, an early estimation of oral bioavailability of new chemical entities is often desired to provide guidance to the iterative chemistry effort. Furthermore, because oral bioavailability is primarily limited by either high first-pass hepatic extraction or low delivery to the portal circulation (because of low solubility, poor absorption, and/or intestinal extraction), it is often of interest to determine the relative importance of these two factors (Kwan, 1997). The contribution of each factor is assessed indirectly by comparing exposure levels obtained by administration through different routes (Gibaldi et al., 1971;Rowland, 1972) and/or from different blood sampling sites (Ward, et al., 2001;Murakami et al., 2003). Such information is essential as a guide to chemical modifications aimed to optimize the oral bioavailability. Furthermore, pharmacokinetic evaluations of metabolites are often important in drug discovery and development, particularly when drug e...

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confidence: 78%

Application of Stable Isotope Methodology in the Evaluation of the Pharmacokinetics of (S,S)-3-[3-(Methylsulfonyl)phenyl]-1-propylpiperidine Hydrochloride in Rats

Yamazaki

Toth²,

Kimoto³

et al. 2009

Drug Metab Dispos

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“…These population parameters are usually obtained by Maximum Likelihood approach [4]. Once population parameters are estimated, individual parameters can then be derived, using Bayesian approach which combines 'a priori' information of population parameters estimated previously and the individual data.…”

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confidence: 99%

“…This approach relies on the Cramer-Rao inequality, which states that the inverse of the MF is the lower bound of the variance-covariance matrix of any unbiased estimator of the parameters. Expressions of the expected individual (MIF) and population Fisher information matrix (MPF) using first-order (FO) approximation [5,6] have been developed and implemented in several software programs [7,8] to evaluate and optimize 4 designs for standard individual regression or population analysis, respectively. Beside MIF and MPF, the expected Bayesian Fisher information matrix (MBF) was also developed to evaluate the estimation error of individual parameters obtained by MAP [9,10].…”

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confidence: 99%

Individual Bayesian Information Matrix for Predicting Estimation Error and Shrinkage of Individual Parameters Accounting for Data Below the Limit of Quantification

Nguyen

Nguyễn

2017

Pharm Res

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Purpose: In mixed models, the relative standard errors (RSE) and shrinkage of individual parameters can be predicted from the individual Bayesian information matrix (MBF).We proposed an approach accounting for data below the limit of quantification (LOQ) in MBF.Methods: MBF is the sum of the expectation of the individual Fisher information (MIF) which can be evaluated by First-Order linearization and the inverse of random effect variance.We expressed the individual information as a weighted sum of predicted MIF for every possible design composing of measurements above and/or below LOQ. When evaluating MIF, we derived the likelihood expressed as the product of the likelihood of observed data and the 2 probability for data to be below LOQ. The relevance of RSE and shrinkage predicted by MBF in absence or presence of data below LOQ were evaluated by simulations, using a pharmacokinetic/viral kinetic model defined by differential equations. Results:Simulations showed good agreement between predicted and observed RSE and shrinkage in absence or presence of data below LOQ. We found that RSE and shrinkage increased with sparser designs and with data below LOQ. Conclusions:The proposed method based on MBF adequately predicted individual RSE and shrinkage, allowing for evaluation of a large number of scenarios without extensive simulations. KEYWORDS: Bayesian Fisher information matrix; Data below the limit of quantification;Nonlinear mixed effect models; Optimal design; Shrinkage. ABBREVIATIONS: FO

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“…In addition, a Bayesian MCMC method was incorporated in the recent release of NONMEM version VII (164). A benefit to using NONMEM is that it is the most widely used software for population PK/PD modeling (151), and since it has been available for more than 30 years, there is a wealth of studies and experience with using NONMEM in the literature. For pharmacometricians that have primarily used NONMEM for population PK/PD modeling, switching to WinBUGS may require additional training and education in Bayesian analysis and MCMC methods.…”

Section: Discussionmentioning

confidence: 99%

“…The findings from published therapeutic mAb population PK analyses were used in the present study to define aspects of the candidate population PK simulation model in order to simulate PK data for a representative therapeutic mAb. The software NONMEM was included in this study as it is the most widely used software for population PK/PD modeling (151). WinBUGS was chosen as the Bayesian MCMC method provides a different approach compared to the estimation methods in NONMEM to solving the population PK problem (152), and there is a growing interest in applying full Bayesian methods in population PK modeling.…”

Section: Chapter 4 Comparative Performance Of Bayesian Markov Chain mentioning

confidence: 99%

Population Pharmacokinetics of Therapeutic Monoclonal Antibodies: Examples and Estimation Method Performance Differences

Dirks¹

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Overview of model‐building strategies in population PK/PD analyses: 2002–2004 literature survey

Cited by 80 publications

References 26 publications

Application of Stable Isotope Methodology in the Evaluation of the Pharmacokinetics of (S,S)-3-[3-(Methylsulfonyl)phenyl]-1-propylpiperidine Hydrochloride in Rats

Application of Stable Isotope Methodology in the Evaluation of the Pharmacokinetics of (S,S)-3-[3-(Methylsulfonyl)phenyl]-1-propylpiperidine Hydrochloride in Rats

Individual Bayesian Information Matrix for Predicting Estimation Error and Shrinkage of Individual Parameters Accounting for Data Below the Limit of Quantification

Population Pharmacokinetics of Therapeutic Monoclonal Antibodies: Examples and Estimation Method Performance Differences

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