School of Pharmaceutical Sciences, University of Geneva, University of Lausanne, Geneva, Switzerland.
J Sep Sci. 2013 Oct;36(19):3141-51. doi: 10.1002/jssc.201300567. Epub 2013 Aug 29.
The goal of this study was to compare the performance of three separation techniques for the analysis of 57 hydrophilic compounds. RPLC, hydrophilic interaction liquid chromatography (HILIC) and subcritical fluid chromatography (SFC) were tested. The comparison was based on the retention, selectivity, peak shape (asymmetry and peak width) and MS sensitivity. As expected, RPLC had some obvious limitations for such classes of compounds, and on average the %ACN required to elute these hydrophilic substances was 4, 7, and 11% ACN at pH 3, 6, and 9, respectively. However, a hybrid polar-embedded C18 phase with an appropriate mobile phase could represent a viable strategy for hydrophilic basic compounds with log D greater than -2 on average. HILIC and SFC were found to be more appropriate for analyzing a large majority of these hydrophilic analytes (~60 and 70% of compounds eluted during the gradient in HILIC and SFC), while maintaining good MS sensitivity. Finally, this work demonstrated the complementarity of the three analytical techniques and showed that the selection of a suitable strategy should mostly be based on physicochemical properties of the analytes (pKa, log D, H-bonding capability, etc.).
本研究的目的是比较三种分离技术在分析 57 种亲水性化合物中的性能。考察了反相液相色谱(RPLC)、亲水相互作用液相色谱(HILIC)和亚临界流体色谱(SFC)。比较的基础是保留时间、选择性、峰形(不对称性和峰宽)和 MS 灵敏度。正如预期的那样,RPLC 对这类化合物有一些明显的局限性,平均而言,在 pH 值为 3、6 和 9 时,洗脱这些亲水物质所需的 ACN%分别为 4%、7%和 11%。然而,具有适当流动相的混合极性嵌入 C18 相可以代表一种可行的策略,用于分析平均 log D 大于-2 的亲水性碱性化合物。发现 HILIC 和 SFC 更适合分析大多数此类亲水性分析物(在 HILIC 和 SFC 梯度洗脱期间约有 60%和 70%的化合物洗脱),同时保持良好的 MS 灵敏度。最后,这项工作证明了三种分析技术的互补性,并表明选择合适的策略应主要基于分析物的物理化学性质(pKa、log D、氢键能力等)。
