Population Exposure-Response Modeling of Metformin in Patients With Type 2 Diabetes Mellitus

doi:10.1177/0091270008316884

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First published on March 27, 2008, doi:10.1177/0091270008316884

The Journal of Clinical Pharmacology 2008;48:696.

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©© 2008 American College of Clinical Pharmacology, Inc.
The Journal of Clinical Pharmacology , 10.1177/0091270008316884

Article

Population Exposure-Response Modeling of Metformin in Patients With Type 2 Diabetes Mellitus

Ying Hong ¹, Shashank Rohatagi ², Bahru Habtemariam ¹, Joseph R. Walker ², Sherwyn L. Schwartz ³, and Donald E. Mager ¹^*

¹ University at Buffalo, SUNY
² Daiichi Sankyo Pharma Development
³ Diabetes & Glandular Disease Clinic

^* To whom correspondence should be addressed. E-mail: dmager{at}buffalo.edu.

Abstract
The exposure-response properties of metformin were characterizedin 12 subjects with type 2 diabetes mellitus. The time courseof drug concentration and effects on fasting plasma glucoseand lactic acid concentrations were used from a study in whichsubjects received 500 mg of metformin twice daily for 5 daysfollowed by 850 mg twice daily for 5 days. Pharmacokinetic samplingincluded morning trough concentrations obtained on days 7 to9 and rich sampling (15 time points) on day 10. Fasting plasmaglucose and lactic acid concentrations were measured on days0 to 10 and served as biomarkers of therapeutic effect and tolerability,respectively. A population pharmacokinetic/pharmacodynamic analysiswas conducted using nonlinear mixed effects modeling. Metforminpharmacokinetics were described using a 1-compartment modelwith first-order absorption. Population mean estimates (relativestandard error [RSE]) of clearance (CL/F) and volume of distributionwere 79.0 L·h^–1 (6.8%) and 648 L (13.8%), respectively.Covariate analyses revealed that creatinine clearance (CL_CR)significantly influenced metformin CL/F [CL/F = 79.0·(CL_CR/80)^0.822].An indirect response model was applied to describe the antihyperglycemiceffect of metformin. Population mean estimates (RSE) of baselinefasting plasma glucose and the drug concentration producinghalf-maximal effect were 241 mg·dL^–1 (4.6%) and 4.23mg·L^–1 (31.0%). An empirical linear model was usedto describe a slight progressive increase in fasting lacticacid during metformin treatment with an estimated slope coefficient(RSE) of 0.0005 mM·mL·ng^–1 (38.1%). Model evaluationby predictive check and nonparametric bootstrap analysis suggestedthat the proposed model is robust, and parameter values wereestimated with good precision. Simulations suggested that theclinical utility of metformin was maintained over the dose rangeevaluated with respect to fasting plasma glucose and lacticacid response.
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