References
- Faure A, York P, Rowe RC. (2001). Process control and scale-up of pharmaceutical wet granulation processes: a review. Euro J Pharm Biopharm, 52:269–277.
- Feng J, Xu L, Gao R, Luo Y, Tang X. (2011). Evaluation of polymer carriers with regard to the bioavailability enhancement of bifendate solid dispersions prepared by hot-melt extrusion, Drug Development and Industrial Pharmacy, 1–9, Posted online on 15 Oct 2011.
- He X, Lunday K, Li L, Sacchetti M. (2008). Formulation development and process scale up of a high shear wet granulation formulation containing a poorly wettable. Drug J Pharm Sci, 97:5274–5289.
- Vojnovic D, Chicco D, Zenary HEl. (1996). Doehlert experimental design applied to optimization and quality control of a granulation process in a high shear mixer. Int J Pharm, 145:203–213.
- Badawy S I, Lee T J, Menning MM. (2000). Effect of drug substance particle size on the characteristics of granulation manufactured in a high-shear mixer. AAPS Pharm Sci Tech, 1: E33.
- Badawy S I, Menning M M, Gorko M A, Gilbert DL. (2000). Effect of process parameters on compressibility of granulation manufactured in a high-shear mixer. Int J Pharm, 198:51–61.
- Campisi B, Vojnovic D, Chicco D, Phan-Tan-Luu R. (1999). Melt granulation in a high shear mixer: optimization of mixture and process variables using a combined experimental design. Chemometr Intell Lab Syst, 48:59–70.
- Mishima M, Uchida A, Hirai M, Kawasaki H, eds. (2006). Clinical Pharmaceutical Technology. Tokyo: Nanzando Co. Ltd.
- Otsuka M. Micro-scale agitation granulator. Japanese Patent Tokugan, 2009–252958.
- Perfect E, Xu Q, Terry DL. (1998). Improved parameterization of fertilizer particle size distribution. J AOAC Int, 81:935–942.