高硫酸化环糊精在纳升/分钟低流速下与电喷雾电离的兼容性及其在卡西酮衍生物及其光学异构体的毛细管电泳/电喷雾电离质谱分析中的应用。

Compatibility of highly sulfated cyclodextrin with electrospray ionization at low nanoliter/minute flow rates and its application to capillary electrophoresis/electrospray ionization mass spectrometric analysis of cathinone derivatives and their optical isomers.

作者信息

Moini Mehdi, Rollman Christopher M

机构信息

Department of Forensic Sciences, George Washington University, Washington, DC, USA.

出版信息

Rapid Commun Mass Spectrom. 2015 Feb 15;29(3):304-10. doi: 10.1002/rcm.7106.

DOI:10.1002/rcm.7106

PMID:26411628

Abstract

RATIONALE

Sodium salts of cyclodextrins are commonly used in capillary electrophoresis/mass spectrometry (CE/MS) analysis of illicit drugs and their optical isomers. To avoid the suppression effect of cyclodextrins under electrospray ionization (ESI), the partial filling technique (PFT) is commonly utilized, which has a limited resolution. Low-flow nano-ESI has been shown to reduce the suppression effect of the salts. To test the compatibility of low-flow ESI with a background electrolyte (BGE) containing sodium salts of cyclodextrin, sheathless narrow capillary CE/MS with flow rates of low nanoliters/minute (nL/min) was applied to the separation and detection of cathinones and their positional and optical isomers for the first time.

METHODS

Low-flow sheathless CE/MS using a 20-µm-i.d. capillary in conjunction with a porous tip interface was used for the separation of cathinone derivatives and their optical isomers. Highly sulfated γ-cyclodextrin (HS-γ-CD) in conjunction with (+)-18-crown-6-tetracarboxylic acid ((+)-18-C-6-TCA) was used as the BGE and an ion trap mass spectrometer operating in full scan mode was utilized.

RESULTS

Utilizing low flow rate (~10 nL/min) sheathless CE/MS, the use of the sodium salt of HS-γ-CD as the BGE was compared with the same solution using PFT. The relative and absolute sensitivity of detection of cathinones were about the same, indicating that under low-flow sheathless CE/MS there was no significant suppression due to the existence of HS-γ-CD in the electrospray process. However, enhanced resolution of cathinone derivatives and their positional and optical isomers was observed when the solution of HS-γ-CD was used as the BGE. The enhanced resolution was because of the presence of the HS-γ-CD in the entire capillary during the analysis. The addition of 15 mM (+)-18-C-6-TCA to the BGE containing HS-γ-CD further enhanced the resolution resulting in separation of all cathinones and their positional and optical isomers.

CONCLUSIONS

A novel CE/MS technique has been introduced that combines low-flow sheathless CE/MS, with HS-γ-CD and 15 mM (+)-18-C-6-TCA as the BGE for separation of cathinone derivatives as well as their positional and optical isomers.

摘要

原理

环糊精的钠盐常用于非法药物及其光学异构体的毛细管电泳/质谱（CE/MS）分析。为避免环糊精在电喷雾电离（ESI）下的抑制作用，通常采用部分填充技术（PFT），但其分辨率有限。低流量纳米电喷雾已被证明可降低盐类的抑制作用。为测试低流量电喷雾与含环糊精钠盐的背景电解质（BGE）的兼容性，首次将流速为低纳升/分钟（nL/min）的无鞘窄毛细管CE/MS应用于卡西酮及其位置异构体和光学异构体的分离与检测。

方法

使用内径为20 µm的毛细管结合多孔尖端接口的低流量无鞘CE/MS用于卡西酮衍生物及其光学异构体的分离。高度硫酸化的γ-环糊精（HS-γ-CD）与（+）-18-冠-6-四羧酸（（+）-18-C-6-TCA）用作BGE，并使用在全扫描模式下运行的离子阱质谱仪。

结果

利用低流速（约10 nL/min）无鞘CE/MS，将使用HS-γ-CD钠盐作为BGE与使用PFT的相同溶液进行了比较。卡西酮检测的相对和绝对灵敏度大致相同，表明在低流量无鞘CE/MS下，电喷雾过程中由于HS-γ-CD的存在没有明显抑制作用。然而，当使用HS-γ-CD溶液作为BGE时，观察到卡西酮衍生物及其位置异构体和光学异构体的分辨率提高。分辨率提高是因为分析过程中整个毛细管中都存在HS-γ-CD。向含HS-γ-CD的BGE中添加15 mM（+）-18-C-6-TCA进一步提高了分辨率，从而实现了所有卡西酮及其位置异构体和光学异构体的分离。