From preclinical to human – prediction of oral absorption and drug–drug interaction potential using physiologically based pharmacokinetic (PBPK) modeling approach in an industrial setting: a workflow by using case example

Sinha, Vikash; Snoeys, Jan; Osselaer, Nancy Van; Peer, Achiel Van; Mackie, Claire; Heald, Donald

doi:10.1002/bdd.1782

Cited by 72 publications

(39 citation statements)

References 25 publications

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“…This study has identified a significant risk for overestimating DDI liability with Simcyp, largely attributable to uncertainty in CYP3A-mediated intestinal DDIs. This result is consistent with a recent report (Sinha et al, 2012). In the gut, CYP3A represents the principal drug-metabolizing P450 enzyme (Paine et al, 1997(Paine et al, , 2006.…”

Section: Discussionsupporting

confidence: 93%

Evaluation of the Use of Static and Dynamic Models to Predict Drug-Drug Interaction and Its Associated Variability: Impact on Drug Discovery and Early Development

Peters¹,

Schroeder²,

Giri³

et al. 2012

Drug Metab Dispos

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ABSTRACT:Simcyp, a population-based simulator, is widely used for evaluating drug-drug interaction (DDI) risks in healthy and disease populations. We compare the prediction performance of Simcyp with that of mechanistic static models using different types of inhibitor concentrations, with the aim of understanding their strengths/ weaknesses and recommending the optimal use of tools in drug discovery/early development. The inclusion of an additional term in static equations to consider the contribution of hepatic first pass to DDIs (AUCR hfp ) has also been examined. A second objective was to assess Simcyp's estimation of variability associated with DDIs. The data set used for the analysis comprises 19 clinical interactions from 11 proprietary compounds. Except for gut interaction parameters, all other input data were identical for Simcyp and static models. Static equations using an unbound average steady-state systemic inhibitor concentration (I sys ) and a fixed fraction of gut extraction and neglecting gut extraction in the case of induction interactions performed better than Simcyp (84% compared with 58% of the interactions predicted within 2-fold). Differences in the prediction outcomes between the static and dynamic models are attributable to differences in first-pass contribution to DDI. The inclusion of AUCR hfp in static equations leads to systematic overprediction of interaction, suggesting a limited role for hepatic first pass in determining inhibition-based DDIs for our data set. Our analysis supports the use of static models when elimination routes of the victim compound and the role of gut extraction for the victim and/or inhibitor in humans are not well defined. A fixed variability of 40% of predicted mean area under the concentration-time curve ratio is recommended.

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Section: Discussionsupporting

confidence: 93%

Evaluation of the Use of Static and Dynamic Models to Predict Drug-Drug Interaction and Its Associated Variability: Impact on Drug Discovery and Early Development

Peters¹,

Schroeder²,

Giri³

et al. 2012

Drug Metab Dispos

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“…This is important since drug disposition and DDI mechanisms are generally complex, and models need to be calibrated with both in vitro parameters ("bottom-up") and observed in vivo PK or clinical DDI results ("top-down") Rostami-Hodjegan, 2012;Varma et al, 2012c;Gertz et al, 2013;Varma et al, 2013a;. Although PBPK models are useful to predict DDI risk prior to first-in-human studies, there is a significant level of uncertainty around the human PK and efficacious drug concentration in humans, since these parameters are predicted (Chen et al, 2012;Sinha et al, 2012;Zhao et al, 2012). Therefore, the utility of PBPK models are generally fully realized once human PK have been confirmed and human ADME data obtained to calibrate PBPK models, which could be used to inform decisions on allowable concomitant medications or exclusion criteria during phase II studies and beyond.…”

Section: Predicting Drug-drug Interactionsmentioning

confidence: 99%

A Perspective on the Prediction of Drug Pharmacokinetics and Disposition in Drug Research and Development

Feng

Goosen

et al. 2013

Drug Metab Dispos

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Prediction of human pharmacokinetics of new drugs, as well as other disposition attributes, has become a routine practice in drug research and development. Prior to the 1990s, drug disposition science was used in a mostly descriptive manner in the drug development phase. With the advent of in vitro methods and availability of human-derived reagents for in vitro studies, drugdisposition scientists became engaged in the compound design phase of drug discovery to optimize and predict human disposition properties prior to nomination of candidate compounds into the drug development phase. This has reaped benefits in that the attrition rate of new drug candidates in drug development for reasons of unacceptable pharmacokinetics has greatly decreased. Attributes that are predicted include clearance, volume of distribution, halflife, absorption, and drug-drug interactions. In this article, we offer our experience-based perspectives on the tools and methods of predicting human drug disposition using in vitro and animal data.

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“…The application of PBPK modelling for human PK and hence dose prediction has been more widespread in recent years with a number of publications from the Pharmaceutical Industry (7)(8)(9)(10)(11)(12)(13)16,17). In drug discovery and development, PBPK models can be iteratively refined to incorporate additional information on drug disposition as it becomes available from preclinical and clinical studies.…”

Section: Application Of Pbpk Methodologies For Pk and Dose Predictionmentioning

confidence: 99%

“…The integration of physicochemical, in vitro and in vivo data into a PBPK framework to simulate PK profiles of small molecules in humans has become widespread within the Pharmaceutical Industry with numerous groups publishing on their experience with this approach (7)(8)(9)(10)(11)(12)(13)(16)(17)(18)(19). Although PBPK methods have shown utility in predicting human PK a few major challenges remain that need to be addressed to further increase the success of this approach.…”

Section: Challenges and Future Direction Small Molecule Pbpk Modelsmentioning

confidence: 99%

“…Commercial PBPK packages have become available and strategies for the application of PBPK in the drug discovery setting have been published and recently evaluated (7,8). For this reason, the methodology has received an increase in attention in the last few years with several reports of its application for the prediction of animal and human PK for small molecules in discovery (7)(8)(9)(10)(11)(12)(13) and development (14)(15)(16)(17)(18)(19).…”

Section: Introductionmentioning

confidence: 99%

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Dose Selection Based on Physiologically Based Pharmacokinetic (PBPK) Approaches

Jones

Mayawala

Poulin³

2012

AAPS J

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Abstract. Physiologically based pharmacokinetic (PBPK) models are built using differential equations to describe the physiology/anatomy of different biological systems. Readily available in vitro and in vivo preclinical data can be incorporated into these models to not only estimate pharmacokinetic (PK) parameters and plasma concentration-time profiles, but also to gain mechanistic insight into compound properties. They provide a mechanistic framework to understand and extrapolate PK and dose across in vitro and in vivo systems and across different species, populations and disease states. Using small molecule and large molecule examples from the literature and our own company, we have shown how PBPK techniques can be utilised for human PK and dose prediction. Such approaches have the potential to increase efficiency, reduce the need for animal studies, replace clinical trials and increase PK understanding. Given the mechanistic nature of these models, the future use of PBPK modelling in drug discovery and development is promising, however some limitations need to be addressed to realise its application and utility more broadly.

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From preclinical to human – prediction of oral absorption and drug–drug interaction potential using physiologically based pharmacokinetic (PBPK) modeling approach in an industrial setting: a workflow by using case example

Cited by 72 publications

References 25 publications

Evaluation of the Use of Static and Dynamic Models to Predict Drug-Drug Interaction and Its Associated Variability: Impact on Drug Discovery and Early Development

Evaluation of the Use of Static and Dynamic Models to Predict Drug-Drug Interaction and Its Associated Variability: Impact on Drug Discovery and Early Development

A Perspective on the Prediction of Drug Pharmacokinetics and Disposition in Drug Research and Development

Dose Selection Based on Physiologically Based Pharmacokinetic (PBPK) Approaches

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