Literature DB >> 19847627

Physiologically-based PK/PD modelling of therapeutic macromolecules.

Peter Thygesen1, Panos Macheras, Achiel Van Peer.   

Abstract

Therapeutic proteins are a diverse class of drugs consisting of naturally occurring or modified proteins, and due to their size and physico-chemical properties, they can pose challenges for the pharmacokinetic and pharmacodynamic studies. Physiologically-based pharmacokinetics (PBPK) modelling has been effective for early in silico prediction of pharmacokinetic properties of new drugs. The aim of the present workshop was to discuss the feasibility of PBPK modelling of macromolecules. The classical PBPK approach was discussed with a presentation of the successful example of PBPK modelling of cyclosporine A. PBPK model was performed with transport of the cyclosporine across cell membranes, affinity to plasma proteins and active membrane transporters included to describe drug transport between physiological compartments. For macromolecules, complex PBPK modelling or permeability-limited and/or target-mediated distribution was discussed. It was generally agreed that PBPK modelling was feasible and desirable. The role of the lymphatic system should be considered when absorption after extravascular administration is modelled. Target-mediated drug disposition was regarded as an important feature for generation of PK models. Complex PK-models may not be necessary when a limited number of organs are affected. More mechanistic PK/PD models will be relevant when adverse events/toxicity are included in the PK/PD modelling.

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Year:  2009        PMID: 19847627     DOI: 10.1007/s11095-009-9990-3

Source DB:  PubMed          Journal:  Pharm Res        ISSN: 0724-8741            Impact factor:   4.200


  34 in total

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5.  Interspecies scaling of clearance and volume of distribution for digoxin-specific Fab.

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6.  Application of fixed exponent 0.75 to the prediction of human drug clearance: an inaccurate and misleading concept.

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Journal:  Drug Metabol Drug Interact       Date:  2009

7.  Dose-dependent pharmacokinetics of cyclosporin A in rats: events in tissues.

Authors:  C Tanaka; R Kawai; M Rowland
Journal:  Drug Metab Dispos       Date:  2000-05       Impact factor: 3.922

8.  Pharmacokinetic and pharmacodynamic modeling of recombinant human erythropoietin after multiple subcutaneous doses in healthy subjects.

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9.  Pharmacokinetic and pharmacodynamic modeling of recombinant human erythropoietin after single and multiple doses in healthy volunteers.

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10.  Physiologically-based pharmacokinetic (PBPK) model to predict IgG tissue kinetics in wild-type and FcRn-knockout mice.

Authors:  Amit Garg; Joseph P Balthasar
Journal:  J Pharmacokinet Pharmacodyn       Date:  2007-07-18       Impact factor: 2.745
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  12 in total

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Authors:  Dhaval K Shah; Alison M Betts
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Review 4.  Pharmacokinetics and pharmacokinetic-pharmacodynamic correlations of therapeutic peptides.

Authors:  Lei Diao; Bernd Meibohm
Journal:  Clin Pharmacokinet       Date:  2013-10       Impact factor: 6.447

5.  From target selection to the minimum acceptable biological effect level for human study: use of mechanism-based PK/PD modeling to design safe and efficacious biologics.

Authors:  Jing Yu; Helene Karcher; Adam L Feire; Philip J Lowe
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Review 6.  Clinical pharmacology considerations in biologics development.

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Review 7.  Pharmacokinetics, pharmacodynamics and physiologically-based pharmacokinetic modelling of monoclonal antibodies.

Authors:  Miroslav Dostalek; Iain Gardner; Brian M Gurbaxani; Rachel H Rose; Manoranjenni Chetty
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8.  Pharmacokinetic analysis of continuous erythropoietin receptor activator disposition in adult sheep using a target-mediated, physiologic recirculation model and a tracer interaction methodology.

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9.  Prediction of a potentially effective dose in humans for BAY 60-5521, a potent inhibitor of cholesteryl ester transfer protein (CETP) by allometric species scaling and combined pharmacodynamic and physiologically-based pharmacokinetic modelling.

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Journal:  Pharm Res       Date:  2011-05-21       Impact factor: 4.200
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