Abstract
According to the ICH Q8 guideline, analytic technologies (PAT) are important tools for characterization and optimization of pharmaceutical manufacturing processes. Particle size as a critical quality attribute for granules is therefore an important parameter that should be monitored during the fluid bed granulation process. This work focusses on optimizing position and configuration of an SFT-sensor for the in-line measurement of particle size distribution in a Glatt GPCG 3 fluid bed granulator. As model-substances, different grades of microcrystalline cellulose were used. The in-line measured particle size and particle rate in the sensor were evaluated. A sensor position in the deceleration zone of the granulator was found to be promising for in-line particle size measurement. Most reliable data were generated in this position when the probe was placed in a distance of 11cm from the chamber wall to avoid bias by the inlet air stream. No major influence of rotation angle of the probe was found in this position. Furthermore, an entire fluid bed granulation process was successfully monitored with the sensor installed in the optimized setting.
Highlights
1.1 General introductionEthinylestradiol (EE) is the most commonly used estrogen substance in oral contraceptives[1]
the ICH ask for process analytic technology (PAT)-approaches
standard during the whole life-cycle of drugs including the development of a formulation
Summary
1.1 General introductionEthinylestradiol (EE) is the most commonly used estrogen substance in oral contraceptives[1]. For these reasons and to optimize energy consumption and process time, the implementation of PAT to monitor particle size during granulation processes is desirable. The spatial filtering technology (SFT) was described as a new in-line particle size analysis method that can be used in the fluid bed granulation process93;97;99;126. The advantage of this method is that no calibration of the sensor with the actual product is necessary. The manufacturer (Parsum, Chemnitz, Germany) specifies the measurement range from 50 μm to 6000 μm
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