Developing a quality by design approach to model tablet dissolution testing: an industrial case study

Abstract This study applied the concept of Quality by Design (QbD) to tablet dissolution. Its goal was to propose a quality control strategy to model dissolution testing of solid oral dose products according to International Conference on Harmonization guidelines. The methodology involved the following three steps: (1) a risk analysis to identify the material- and process-related parameters impacting the critical quality attributes of dissolution testing, (2) an experimental design to evaluate the influence of design factors (attributes and parameters selected by risk analysis) on dissolution testing, and (3) an investigation of the relationship between design factors and dissolution profiles. Results show that (a) in the case studied, the two parameters impacting dissolution kinetics are active pharmaceutical ingredient particle size distributions and tablet hardness and (b) these two parameters could be monitored with PAT tools to predict dissolution profiles. Moreover, based on the results obtained, modeling dissolution is possible. The practicality and effectiveness of the QbD approach were demonstrated through this industrial case study. Implementing such an approach systematically in industrial pharmaceutical production would reduce the need for tablet dissolution testing.

[1]  A. Noyes,et al.  The rate of solution of solid substances in their own solutions , 1897 .

[2]  Lawrence X. Yu Pharmaceutical Quality by Design: Product and Process Development, Understanding, and Control , 2008, Pharmaceutical Research.

[3]  Joseph Moses Juran Juran on Quality by Design: The New Steps for Planning Quality into Goods and Services , 1992 .

[4]  J. Abraham The international conference on harmonisation of technical requirements for registration of pharmaceuticals for human use , 2009 .

[5]  A. Rathore,et al.  Quality by Design: Industrial Case Studies on Defining and Implementing Design Space for Pharmaceutical Processes Part 1 , 2008 .

[6]  A. Dokoumetzidis,et al.  Analysis of Dissolution Data Using Modified Versions of Noyes–Whitney Equation and the Weibull Function , 2006, Pharmaceutical Research.

[7]  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.

[8]  A. W. Hixson,et al.  Dependence of Reaction Velocity upon surface and Agitation , 1931 .

[9]  T. Higuchi MECHANISM OF SUSTAINED-ACTION MEDICATION. THEORETICAL ANALYSIS OF RATE OF RELEASE OF SOLID DRUGS DISPERSED IN SOLID MATRICES. , 1963, Journal of pharmaceutical sciences.

[10]  Umesh V. Banakar,et al.  Pharmaceutical Dissolution Testing , 1991 .

[11]  P. Buri Mesure de la vitesse de dissolution pour l'amélioration et le contrôle de la qualité des médicaments , 1983 .

[12]  Bozena Michniak-Kohn,et al.  Prediction of dissolution profiles by non-destructive near infrared spectroscopy in tablets subjected to different levels of strain. , 2016, Journal of pharmaceutical and biomedical analysis.

[13]  Kuo-Lun Hsiao,et al.  Android smartphone adoption and intention to pay for mobile internet: Perspectives from software, hardware, design, and value , 2013, Libr. Hi Tech.

[14]  N. Peppas,et al.  Mechanisms of potassium chloride release from compressed, hydrophilic, polymeric matrices: effect of entrapped air. , 1983, Journal of pharmaceutical sciences.

[15]  Emad B. Basalious,et al.  Application of Pharmaceutical QbD for Enhancement of the Solubility and Dissolution of a Class II BCS Drug using Polymeric Surfactants and Crystallization Inhibitors: Development of Controlled-Release Tablets , 2011, AAPS PharmSciTech.

[16]  R. Gosselin,et al.  Predicting the dissolution behavior of pharmaceutical tablets with NIR chemical imaging. , 2015, International journal of pharmaceutics.

[17]  J. Polli,et al.  Methods to compare dissolution profiles and a rationale for wide dissolution specifications for metoprolol tartrate tablets. , 1997, Journal of pharmaceutical sciences.

[18]  G. K. Raju,et al.  Understanding Pharmaceutical Quality by Design , 2014, The AAPS Journal.

[19]  Mark Reynolds,et al.  Interdependence of drug substance physical properties and corresponding quality control strategy. , 2012, Journal of pharmaceutical sciences.

[20]  Christos Reppas,et al.  Biorelevant in vitro dissolution testing of products containing micronized or nanosized fenofibrate with a view to predicting plasma profiles. , 2011, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[21]  Chris Davison,et al.  Multivariate modelling to study the effect of the manufacturing process on the complete tablet dissolution profile. , 2015, International journal of pharmaceutics.

[22]  Noel Alan Weldon Baker,et al.  Quality Risk Management (QRM) , 2018 .