Separation of 20 coumarin derivatives using the capillary electrophoresis method optimized by a series of Doehlert experimental designs

• Published in: Talanta (Oxford) Vol. 167; pp. 714 - 724
• Main Authors: Woźniakiewicz, Michał, Gładysz, Marta, Nowak, Paweł M., Kędzior, Justyna, Kościelniak, Paweł
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 15.05.2017
• Subjects: Acetonitriles - chemistry; Animals; beta-Cyclodextrins - chemistry; Capillary electrophoresis; Chamomile - chemistry; Coumarins; Coumarins - analysis; Coumarins - isolation & purification; Doehlert experimental design; Electrophoresis, Capillary - methods; Hydrogen-Ion Concentration; Methanol - chemistry; Optimization; Osmolar Concentration; Plant Extracts - chemistry; Poisons - chemistry; Poisons - toxicity; Rats; Research Design - standards; Response surface methodology; Separation; Temperature; Coumarins; Separation; Response surface methodology; Capillary electrophoresis; Doehlert experimental design; Optimization
• ISSN: 0039-9140; 1873-3573
• DOI: 10.1016/j.talanta.2017.02.017

The aim of this study was to develop the first CE-based method enabling separation of 20 structurally similar coumarin derivatives. To facilitate method optimization a series of three consequent Doehlert experimental designs with the response surface methodology was employed, using number of peaks and the adjusted time of analysis as the selected responses. Initially, three variables were examined: buffer pH, ionic strength and temperature (No. 1 Doehlert design). The optimal conditions provided only partial separation, on that account, several buffer additives were examined at the next step: organic cosolvents and cyclodextrin (No. 2 Doehlert design). The optimal cyclodextrin type was also selected experimentally. The most promising results were obtained for the buffers fortified with methanol, acetonitrile and heptakis(2,3,6-tri-O-methyl)-β-cyclodextrin. Since these additives may potentially affect acid-base equilibrium and ionization state of analytes, the third Doehlert design (No. 3) was used to reconcile concentration of these additives with optimal pH. Ultimately, the total separation of all 20 compounds was achieved using the borate buffer at basic pH 9.5 in the presence of 10mM cyclodextrin, 9% (v/v) acetonitrile and 36% (v/v) methanol. Identity of all compounds was confirmed using the in-lab build UV–VIS spectra library. The developed method succeeded in identification of coumarin derivatives in three real samples. It demonstrates a huge resolving power of CE assisted by addition of cyclodextrins and organic cosolvents. Our unique optimization approach, based on the three Doehlert designs, seems to be prospective for future applications of this technique. [Display omitted] •20 Coumarins separated by a cyclodextrin- and cosolvent-assisted CE method.•A sequence of 3 Doehlert designs was applied in optimization process.•Doehlert designs and RSM led to the optimal separation conditions.•Repeatability of electrophoretic mobility is better than 2.2%.•The CE method was verified in qualitative analysis of various real samples.