ABSTRACT
Abstract: The design space of the high shear wet granulation process was established and validated within the framework of quality by design (QbD). The system of microcrystalline cellulose-de-ioned water was used in this study. The median granule size and bulk density of granules were identified as critical quality attributes. Plackeet-Burmann experimental design was used to screen these factors as follows: dry mixing time, the impeller and chopper speed of dry mixing, water amount, water addition time, wet massing time, the impeller and chopper speed of wet massing and drying time. And the optimization was implemented with the central composite experimental design based on screened critical process parameters. The design space of the high shear wet granulation process was established based on the quadratic polynomial regression model. Since the P-values of both models were less than 0.05 and values of lack of fit were more than 0.1, the relationship between critical quality attributes and critical process parameters could be well described by the two models. The reliability of design space, illustrated by overlay plot, was improved with the addition of 95% confidence interval. For those granules whose process parameters were in the design space, the granule size could be controlled within 250 to 355 μm, and the bulk density could be controlled within a range of 0.4 to 0.6 g x cm(-3). The robustness and flexibility of the high shear wet granulation process have been enhanced via the establishment of the design space based on the QbD concept.
ABSTRACT
This study was aimed to find out the correlation between chemical component contents and physical prop-erties of tanshinone extract powders. The contents of cryptotanshinone and tanshinone IIA from 50 batches of tanshi-none extract powders were determined by HPLC. And the physical properties were determined by classical methods. The correlation analysis between component contents and physical properties were also investigated. The results showed that two sets of variables had good intraclass correlation, especially for the contents of cryptotanshinone and tanshinone IIA, among D10, D50, D90, there were relatively strong correlation between the bulk density and tapped density, between the Hausner ratio and compressibility index. The angle of repose had a certain correlation with the uniformity, Hausner ratio and compressibility index, but with no strong correlation. The correlation coefficient be-tween two sets was below 0.400, suggesting there was a not so good inter-group correlation. After the canonical cor-relation analysis, three pairs of canonical variables had significant correlations with correlation coefficients being 0.851, 0.674 and 0.565, respectively. It was concluded that there was a good intraclass correlation for each of physi-cal and/or chemical quality set, but the correlation between the two sets was bad. Canonical variables performed bet-ter inter-group correlation compared with original variables, indicating there was a certain correlation between chem-ical and physical quality attributes of tanshinone extract powders.