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Abstract
Objective: To develop a tablet formulation for an active pharmaceutical ingredient for which sticking and filming problems occurred during tablet punching.
Methods: Direct compression and dry granulation tableting techniques were evaluated using factorial experimental design. The effects of chrome-coated punch tips, filler types and active percent in the tablet formulation by direct compression were evaluated. Similarly, for dry granulation using the roller compaction technique, three formulation factors – roller compaction pressure, intragranular filler percent and filler type – were studied. Tablets prepared by both techniques were characterized in regard to their compressibility index, tablet hardness, disintegration time, friability index and stickiness-filming index (an arbitrary index). Ten formulations were prepared by each technique. Using multiple response optimizations and estimated response surface plots, the data were analyzed to identify optimum levels for the formulation factors.
Results: Compressibility index values for all the formulations prepared by direct compression exceeded 25%, unlike the blends prepared by dry granulation. Both tablet hardness and disintegration time for direct compression formulations were significantly lower than for dry granulation formulations. The friability index values were significantly higher for direct compression formulations than for dry granulation formulations. All the direct compression formulations, unlike the dry granulation formulations, had a high stickiness-filming index.
Conclusion: Statistical analysis helped in identifying the optimum levels of formulation factors, as well as the method for eliminating sticking and filming. Unlike the direct compression technique, dry granulation yielded tablets for which sticking and filming were completely eliminated.
Acknowledgements
The authors wish to thank Baek-Ki Kim and Paul Wortel for formulation work; Elaine Struble and Honghui Zhou for the HPLC analysis of the assay and dissolution samples.
Declaration of interest
This project has been funded in whole or in part by the US National Institute of Allergy and Infectious Diseases, the National Institutes of Health, and the US Department of Health and Human Services under Contract HHSN266200600011C/N01-AI-60011. The authors report no declarations of interest.