Gorringe L J, Kee G S, Saleh M F, Fa N H, Elkes R G
GSK, New Frontiers Science Park, Harlow, CM19 5AW, United Kingdom.
GSK, New Frontiers Science Park, Harlow, CM19 5AW, United Kingdom.
Int J Pharm. 2017 Mar 15;519(1-2):165-177. doi: 10.1016/j.ijpharm.2017.01.029. Epub 2017 Jan 15.
Twin screw wet granulation is a key process in the continuous manufacture of oral solid dosage forms. Previous research has qualitatively suggested that the channel fill level influences the granules produced. In this paper a quantitative measure of the total volumetric fraction of the conveying element channels of the screw filled with powder (φ) was used. Experimental results are shown which demonstrate that very similar particle size distributions can be obtained at the same φ with the same material and screw configuration but radically different solids feed rates and screw speeds. Morphology of the granules also correlates with φ. This is consistent with previous observations in the literature correlating granule attributes with powder feed rate and screw speed but also considers the two parameters in combination. A process design space approach based on φ is proposed. This can be determined empirically, and potentially has value in setting process control strategies, assuring process robustness and allowing process flexibility during the product lifecycle.
双螺杆湿法制粒是口服固体制剂连续生产中的关键工艺。先前的研究定性地表明,料槽填充水平会影响所生产的颗粒。本文使用了一种对螺杆输送元件通道中填充粉末的总体积分数(φ)的定量测量方法。实验结果表明,使用相同的物料和螺杆配置,在相同的φ下,即使固体进料速率和螺杆转速有很大差异,也能获得非常相似的粒度分布。颗粒的形态也与φ相关。这与文献中先前将颗粒属性与粉末进料速率和螺杆转速相关联的观察结果一致,但同时也综合考虑了这两个参数。提出了一种基于φ的工艺设计空间方法。这可以通过经验确定,并且在设定过程控制策略、确保工艺稳健性以及在产品生命周期内实现工艺灵活性方面可能具有价值。
