Small Molecule Pharmaceutical Sciences, One DNA way, South San Francisco, CA, United States.
Small Molecule Pharmaceutical Sciences, One DNA way, South San Francisco, CA, United States.
Int J Pharm. 2017 Apr 15;521(1-2):337-345. doi: 10.1016/j.ijpharm.2017.02.027. Epub 2017 Feb 14.
This paper explores the effectiveness of resonant acoustic mixing RAM for screening and scale up of cocrystals. 16 cocrystal systems were selected as test cases based on previous literature precedent. A 96 well plate set up in conjunction with zirconia beads was used for cocrystal screening using RAM. A success rate of 80% was obtained in the screen for plates containing solvent or solvent plus Zirconia beads. A proof of concept production of hydrated and anhydrous cocrystals of 1:1 Theophylline Citric acid system at a 400mg scale was demonstrated using solvent and bead assisted RAM. Finally the parameters affecting the scale up of 2:1 Theophylline Oxalic acid cocrystals was explored in a systematic fashion using a Design of Experiments DOE approach. The RAM parameters of acceleration and mixing time were optimized using the DOE approach. A quantitative XRPD method was developed to determine the extent of conversion to the cocrystal when using RAM Mixing time of 2h and an acceleration of 60G were determined to be optimal. The optimized parameters were used to demonstrate scale up of 2:1 Theophylline Oxalic acid cocrystals at an 80 gram scale with a net yield of 94%. RAM is thus established as an environmentally friendly mechanochemical technique for both high throughput screening and scaled up production of cocrystals.
本文探讨了共振声混合(RAM)在筛选和扩大共晶中的有效性。基于先前的文献先例,选择了 16 个共晶体系作为测试案例。使用 RAM 结合氧化锆珠在 96 孔板中进行共晶筛选。在含有溶剂或溶剂加氧化锆珠的板中,筛选成功率达到 80%。使用溶剂和珠粒辅助 RAM,证明了在 400mg 规模下制备水合和无水茶碱柠檬酸 1:1 共晶的概念性生产。最后,使用实验设计(DoE)方法系统地探讨了影响 2:1 茶碱草酸盐共晶放大的参数。使用 DoE 方法优化了 RAM 的加速和混合时间参数。开发了一种定量 X 射线粉末衍射(XRPD)方法,用于确定使用 RAM 混合时间为 2 小时和加速度为 60G 时转化为共晶的程度。确定最佳参数用于在 80 克规模下以 94%的净收率展示 2:1 茶碱草酸盐共晶的放大。因此,RAM 被确立为一种环保的机械化学技术,可用于高通量筛选和扩大共晶的生产。
