Epoxide‐derived mixed‐mode chromatographic stationary phases for separation of active substances in fixed‐dose combination drugs

化学 相(物质) 磺酸盐 离子交换 色谱法 选择性 溶剂 离子 有机化学 催化作用
作者
Shuanghong Zhang,Qian‐Hong Wan,Yan Li
出处
期刊:Journal of Separation Science [Wiley]
卷期号:42 (17): 2796-2804 被引量:9
标识
DOI:10.1002/jssc.201900307
摘要

Abstract A method for the preparation of novel mixed‐mode reversed‐phase/strong cation exchange stationary phase for the separation of fixed‐dose combination drugs has been developed. An epoxysilane bonded silica prepared by vapor phase deposition was used as a starting material to produce diol, octadecyl, sulfonate, and mixed octadecyl/sulfonate groups bonded silica phases. The chemical structure and surface coverage of the functional groups on these synthesized phases were confirmed by fourier‐transform infrared and solid‐state 13 C NMR spectroscopy and elemental analysis. Alkylbenzene homologs, basic drugs, nucleobases and alkylaniline homologs were used as probes to demonstrate the reversed‐phase, ion exchange, hydrophilic interaction and mixed‐mode retention behaviors of these stationary phases. The octadecyl/sulfonate bonded silica exhibits pronounced mixed‐mode retention behavior and superior retentivity and selectivity for alkylaniline homologs. The mixed‐mode retention is affected by either ionic or solvent strength in the mobile phase, permiting optimization of a separation by fine tuning these parameters. The mixed‐mode stationary phase was applied to separate two fixed‐dose combination drugs: compound reserpine tablets and compound methoxyphenamine capsules. The results show that simultaneous separation of multiple substances in the compound dosage can be achieved on the mixed‐mode phase, which makes multi‐cycles of analysis for multiple components obsolete.
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