2016
DOI: 10.1016/j.ejps.2016.03.020
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Metformin and cimetidine: Physiologically based pharmacokinetic modelling to investigate transporter mediated drug–drug interactions

Abstract: Metformin is used as a probe for OCT2 mediated transport when investigating possible DDIs with new chemical entities. The aim of the current study was to investigate the ability of physiologically-based pharmacokinetic (PBPK) models to simulate the effects of OCT and MATE inhibition by cimetidine on metformin kinetics. PBPK models were developed, incorporating mechanistic kidney and liver sub-models for metformin (OCT and MATE substrate) and a mechanistic kidney sub-model for cimetidine. The models were used t… Show more

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Cited by 102 publications
(146 citation statements)
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References 74 publications
(102 reference statements)
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“…This contrasts with published models of rat kidney, for which the available data support the mathematical description of features such as exponential decline in proximal tubule filtrate flow and compliant tubules (61). Despite uncertainties associated with some human kidney systems parameters, recent modelling efforts have attempted to account for the impact of flow rates and pH on tubular drug reabsorption (29), as well as the effects electrochemical gradients on organic cation transporter (OCT) 2 (OCT2, SLC22A2)-mediated secretion (59) in mechanistic kidney models. The importance of accounting for the impact of urine pH on proton gradient-dependent drug transport by MATE1 and MATE2-K, as described in vitro (103), should also be assessed.…”
Section: Perspective On Current Effortscontrasting
confidence: 39%
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“…This contrasts with published models of rat kidney, for which the available data support the mathematical description of features such as exponential decline in proximal tubule filtrate flow and compliant tubules (61). Despite uncertainties associated with some human kidney systems parameters, recent modelling efforts have attempted to account for the impact of flow rates and pH on tubular drug reabsorption (29), as well as the effects electrochemical gradients on organic cation transporter (OCT) 2 (OCT2, SLC22A2)-mediated secretion (59) in mechanistic kidney models. The importance of accounting for the impact of urine pH on proton gradient-dependent drug transport by MATE1 and MATE2-K, as described in vitro (103), should also be assessed.…”
Section: Perspective On Current Effortscontrasting
confidence: 39%
“…Compartmental modelling approaches are recommended for estimation of mechanistic efflux transporter kinetic parameters in monolayer assays (53,55,56). These models differ in their complexity and may also consider membrane partitioning and organelle (lysosomes) sequestration, ionised drug permeation, impact of the unstirred water layer and the contribution of electrochemical gradients (53,(56)(57)(58)(59). The key advantage of these models is consideration of the interaction of an efflux transporter with the unbound intracellular drug concentration, as opposed to nominal incubation concentration.…”
Section: Mechanistic Modelling Of In Vitro Transporter Kinetic Datamentioning
confidence: 99%
“…Further refinement of mechanistic modelling of transporter kinetics may result in a more mechanistic input in PBPK kidney models, as illustrated with consideration of electrochemical gradient on organic cation (OCT) mediated uptake of metformin (19). Other features of transporter kinetics that may be considered in the future include role of ATP concentrations, impact of concentration gradients (pH, sodium or other ions) and differences between antiporters and symporters.…”
Section: Discussionmentioning
confidence: 99%
“…Both active secretion and reabsorption can be described using well-stirred or parallel tube models, relating the intrinsic secretion clearance to the renal blood flow (secretion), or the tubular filtrate flow (reabsorption) (11,22). Few studies have compared different structures or refined versions of mechanistic kidney models in specific scenarios (19,37), and further studies of this nature are recommended.…”
Section: Prediction Of Renal Excretion Of Drugs Within Pbpk Paradigmmentioning
confidence: 99%
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