Biorelevant dissolution media as a predictive tool for glyburide a class II drug.

The purpose of this study was to predict the oral absorption of glyburide. Biorelevant dissolution methods, combined with permeability measurements and computational simulations, were used to predict the oral absorption of glyburide. The objective was to establish in vitro/in vivo correlations (IVIVCs) based on the biopharmaceutics drug classification system. The solubility of the glyburide powder was measured in different media. The dissolution behavior of two commercial tablet formulations was tested in different media. Two chemical grades of sodium taurocholate: low quality (LQ)=crude and high quality (HQ)=97% purity, and egg-lecithin: LQ=60% and HQ=99.1% purity were used to prepare fasted state small intestinal fluid (FaSSIF). Simulated intestinal fluid (SIF) and blank FaSSIF without lecithin and taurocholate (BL-FaSSIF) were used as controls. The dissolution tests were performed under constant pH and dynamic pH conditions. The dynamic pH range from 5.0 to 7.5 simulated the biological pH range of gastrointestinal (GI) tract in the fasted state. The drug permeability was studied using Caco-2 cell line. The predictions of the fraction dose absorbed were performed using GastroPlustrade mark. The results of the simulations were compared with actual clinical data taken from a bioequivalence study. The solubility of glyburide was highest in LQ-FaSSIF. The two tablet formulations had significantly different dissolution behaviors in LQ-FaSSIF. The in vitro data was used as the input function into a simulation software. The dynamic LQ-FaSSIF dissolution data achieved the best prediction of the average AUC and C(max) of the clinically observed data. The present study shows that BCS based parameters combined with software simulations can be used to establish an IVIVC for glyburide. In vitro/in silico tools can potentially be used as surrogate for bioequivalence studies.

[1]  Gordon L. Amidon,et al.  Estimating the Fraction Dose Absorbed from Suspensions of Poorly Soluble Compounds in Humans: A Mathematical Model , 1993, Pharmaceutical Research.

[2]  N. C. Miller,et al.  Test Method for Extract Able Matter in Elastomeric Seals for Inhalation Aerosol Products , 1993 .

[3]  Patrick J. Sinko,et al.  Predicting Fraction Dose Absorbed in Humans Using a Macroscopic Mass Balance Approach , 1991, Pharmaceutical Research.

[4]  Susan Budavari,et al.  The Merck index , 1998 .

[5]  J. Crison,et al.  A Theoretical Basis for a Biopharmaceutic Drug Classification: The Correlation of in Vitro Drug Product Dissolution and in Vivo Bioavailability , 1995, Pharmaceutical Research.

[6]  Thierry Lavé,et al.  Prediction of intestinal absorption: comparative assessment of GASTROPLUS and IDEA. , 2002, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[7]  Raimar Löbenberg,et al.  Dissolution Testing as a Prognostic Tool for Oral Drug Absorption: Dissolution Behavior of Glibenclamide , 2000, Pharmaceutical Research.

[8]  R. Löbenberg,et al.  Evaluation of Various Dissolution Media for Predicting In Vivo Performance of Class I and II Drugs , 1998, Pharmaceutical Research.

[9]  R. Löbenberg,et al.  Modern bioavailability, bioequivalence and biopharmaceutics classification system. New scientific approaches to international regulatory standards. , 2000, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[10]  M. Sznitowska,et al.  Solubilizing potential of submicron emulsions and aqueous dispersions of lecithin. , 2002, International journal of pharmaceutics.

[11]  Lawrence X. Yu,et al.  Compartmental transit and dispersion model analysis of small intestinal transit flow in humans , 1996 .

[12]  H. Blume,et al.  Pharmaceutical Quality of Glibenclamide Products A Multinational Postmarket Comparative Study , 1993 .

[13]  Christos Reppas,et al.  Dissolution Testing as a Prognostic Tool for Oral Drug Absorption: Immediate Release Dosage Forms , 2004, Pharmaceutical Research.

[14]  B. Kaufmann,et al.  Absolute bioavailability and bioequivalence of glibenclamide (Semi-Euglucon N). , 1985, International journal of clinical pharmacology, therapy, and toxicology.

[15]  Neuvonen Pj,et al.  The effects of magnesium hydroxide on the absorption and efficacy of two glibenclamide preparations. , 1991 .

[16]  P. Costa,et al.  Modeling and comparison of dissolution profiles. , 2001, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[17]  J. G. Pearson Pharmacokinetics of glyburide. , 1985, The American journal of medicine.

[18]  G L Amidon,et al.  Dissolution of ionizable water-insoluble drugs: the combined effect of pH and surfactant. , 2000, Journal of pharmaceutical sciences.

[19]  G L Amidon,et al.  Transport approaches to the biopharmaceutical design of oral drug delivery systems: prediction of intestinal absorption. , 1996, Advanced drug delivery reviews.

[20]  Christos Reppas,et al.  Dissolution media simulating the intralumenal composition of the small intestine: physiological issues and practical aspects , 2004, The Journal of pharmacy and pharmacology.

[21]  M E Cates,et al.  Kinetics of the micelle-to-vesicle transition: aqueous lecithin-bile salt mixtures. , 2003, Biophysical journal.

[22]  F. P. Woodford Enlargement of taurocholate micelles by added cholesterol and monoolein: self-diffusion measurements. , 1969, Journal of lipid research.

[23]  L. El-Khordagui,et al.  Development of a dissolution medium for glibenclamide , 1996 .

[24]  G L Amidon,et al.  Biowaiver monographs for immediate release solid oral dosage forms based on biopharmaceutics classification system (BCS) literature data: verapamil hydrochloride, propranolol hydrochloride, and atenolol. , 2004, Journal of pharmaceutical sciences.

[25]  M O Karlsson,et al.  Concentration-effect relations of glibenclamide and its active metabolites in man: modelling of pharmacokinetics and pharmacodynamics. , 1997, British journal of clinical pharmacology.