Development and validation of an in vitro-in vivo correlation for buspirone hydrochloride extended release tablets.

The aim of this study was to develop an in-vitro-in-vivo correlation (IVIVC) for two buspirone hydrochloride extended release formulations and to compare their plasma concentrations over time with the commercially available immediate release (IR) tablets. In vitro release rate data were obtained for each formulation using the USP Apparatus 2, paddle stirrer at 50 and 100 rpm in 0.1 M HCl and pH 6.8 phosphate buffer. A three-way crossover study in 18 healthy subjects studied a 30 mg "Fast" (12 h) and 30 mg "Slow" (24 h) formulation of buspirone hydrochloride given once a day, and 2x15 mg immediate release tablets dosed at a 12 h interval. The similarity factor (f(2)) was used to analyze the dissolution data. A linear correlation model was developed using percent absorbed data and percent dissolved data from the two formulations. Predicted buspirone hydrochloride concentrations were obtained by use of a curve fitting equation for the immediate release data to determine the volume of distribution and fraction absorbed constants. Prediction errors were estimated for C(max) and area under the curve (AUC) to determine the validity of the correlation. pH 6.8 at 50 rpm was found to be the most discriminating dissolution method. Linear regression analyses of the mean percentage of dose absorbed versus the mean in vitro release resulted in a significant correlation (r(2)>0.95) for the two formulations. An average percent prediction error for C(max) was -0.16%, but was 16.1%, for the AUCs of the two formulations.

[1]  L. Augsburger,et al.  Development and validation of a non‐linear IVIVC model for a diltiazem extended release formulation , 2002, Biopharmaceutics & drug disposition.

[2]  M C Meyer,et al.  Carbamazepine level‐A in vivo–in vitro correlation (IVIVC): a scaled convolution based predictive approach , 2000, Biopharmaceutics & drug disposition.

[3]  H. L. Goldberg Buspirone Hydrochloride: A Unique New Anxiolytic Agent; Pharmacokinetics, Clinical Pharmacology, Abuse Potential and Clinical Efficacy , 1984, Pharmacotherapy.

[4]  A. Sakr,et al.  A Comparative Multidose Pharmacokinetic Study of Buspirone Extended‐Release Tablets with a Reference Immediate‐Release Product , 2001, Journal of clinical pharmacology.

[5]  P Timmins,et al.  In vitro-in vivo correlation (IVIVC) models for metformin after administration of modified-release (MR) oral dosage forms to healthy human volunteers. , 2001, Journal of pharmaceutical sciences.

[6]  R. Rackley Examples of in vitro-in vivo relationships with a diverse range of quality. , 1997, Advances in experimental medicine and biology.

[7]  A. Sakr,et al.  Pharmacokinetics of Buspirone Extended‐Release Tablets: A Single‐Dose Study , 2001, Journal of clinical pharmacology.

[8]  Patrick Marroum,et al.  Development and Internal Validation of an In Vitro-in Vivo Correlation for a Hydrophilic Metoprolol Tartrate Extended Release Tablet Formulation , 1998, Pharmaceutical Research.

[9]  A S Hussain,et al.  Evaluation of "external" predictability of an in vitro-in vivo correlation for an extended-release formulation containing metoprolol tartrate. , 2000, Journal of pharmaceutical sciences.

[10]  A. Straughn,et al.  Predictive Ability of Level A in Vitro-in Vivo Correlation for RingCap Controlled-Release Acetaminophen Tablets , 2001, Pharmaceutical Research.

[11]  M. Friedman,et al.  Release and Absorption Characteristics of Novel Theophylline Sustained-Release Formulations: In Vitro-in Vivo Correlation , 1990, Pharmaceutical Research.

[12]  John G. Wagner,et al.  Biopharmaceutics and Relevant Pharmacokinetics , 1971 .

[13]  S. Zietz,et al.  An Adjusted Pharmacokinetic Equation for Predicting Drug Levels In Vivo Based on In Vitro Square Root of Time Release Kinetics , 2002, Pharmaceutical development and technology.