An integrated Quality by Design (QbD) approach towards design space definition of a blending unit operation by Discrete Element Method (DEM) simulation
AUTHOR(S)
C. Radeke, D. Suzzi, J. G. Khinast, S. Adam
PUBLISHER
Elsevier
SOURCE
European Journal of Pharmaceutical Sciences
YEAR
ABSTRACT
A combined Quality by Design (QbD) and Discrete Element Model (DEM) simulation-approach is presentedto characterize a blending unit operation by evaluating the impact of formulation parametersand process variables on the blending quality and blending end point. Understanding the variability ofboth the API and the excipients, as well as their impact on the blending process are critical elementsfor blending QbD. In a first step, the QbD-methodology is systematically used to (1) establish the criticalquality attribute content uniformity and to link this CQA to its surrogate blend homogeneity, (2) identifypotentially critical input factors that may affect blending operation quality and (3) risk-rank these factors to define activities for process characterization. Subsequently, a DEM-simulation-based characterization of the blending process is performed. A statistical evaluation is finally presented, relating blend homogeneity of systems with low particle number to the regulatory requirements. Data are then used to map out a three-dimensional knowledge space, providing parameters to define a design space and set up an appropriate control strategy.
KEYWORDS
Blending, Quality by Design