Generalized model of the linear theory of electromigration and its application to electrokinetic chromatography: Theory and software PeakMaster 6—Next Generation

Malý, Michal; Dovhunová, Magda; Dvořák, Martin; Gerlero, Gabriel S.; Kler, Pablo A.; Hruška, Vlastimil; Dubský, Pavel

doi:10.1002/elps.201800400

Cited by 25 publications

(26 citation statements)

References 40 publications

(77 reference statements)

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“…Our group introduced two software tools for the simulation and prediction of electromigration behavior and for method development–PeakMaster and Simul . Both tools use as the input data the set of limiting ionic mobilities and thermodynamic pKa constants, which is known as the Hirokawa database .…”

Section: Introductionmentioning

confidence: 99%

Determination of thermodynamic acidity constants and limiting ionic mobilities of weak electrolytes by capillary electrophoresis using a new free software AnglerFish

et al. 2019

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Determination of thermodynamic acidity constants and limiting ionic mobilities of weak electrolytes by capillary electrophoresis using a new free software AnglerFishThermodynamic acidity constants (acid or acid-base dissociation constants, sometimes called also as ionization constants) and limiting ionic mobilities (both of them at defined temperature, usually 25°C) are the fundamental physicochemical characteristics of a weak electrolyte, that is, weak acid or weak base or ampholyte. We introduce a novel method for determining the data of a weak electrolyte by the nonlinear regression of effective electrophoretic mobility versus buffer composition dependence when measured in a set of BGEs with various pH. To correct the experimental data for zero ionic strength we use the extended Debye-Hückel model and Onsager-Fuoss law with no simplifications. Contrary to contemporary approaches, the nonlinear regression is performed on limiting mobility data calculated by PeakMaster's correction engine, not on the raw experimental mobility data. Therefore, there is no requirement to perform all measurements at a constant ionic strength of the set of BGEs. We devised the computer program AnglerFish that performs the necessary calculations in a user-friendly fashion. All thermodynamic pKa values and limiting electrophoretic mobilities for arbitrarily charged substances having any number of ionic forms are calculated by one fit. The user input consists of the buffer composition of the set of BGEs and experimentally measured effective mobilities of the inspected weak electrolyte.

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Section: Introductionmentioning

confidence: 99%

Determination of thermodynamic acidity constants and limiting ionic mobilities of weak electrolytes by capillary electrophoresis using a new free software AnglerFish

et al. 2019

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“…We prefer the terminology of “constituents” and their “forms” as it can be dated back to a paper by Alberty in 1950 . We provide a detailed commentary on the perception of constituents and forms in a separate paper in this special issue , where we also examine general equilibria that exist in electrophoretic systems such as in electrokinetic chromatography (EKC) ones. We limit our discussion to simple acid–base equilibria in this paper.…”

Section: Introductionmentioning

confidence: 99%

“…Additionally, Svensson pointed out that acid–base equilibria can be viewed as complex formation equilibria between various forms of weak electrolyte constituents and water ions, similarly to other possible complex‐formation equilibria between a constituent and other constituent(s), including non‐electrolytes, provided all of the reactions involved are fast enough. Although we are not aware of an explicit proof of this statement in MBE, its validity has been proven very recently in our group in the context of the EKC systems .…”

Section: Introductionmentioning

confidence: 99%

“…Štědrý, Gaš et al extensively developed this idea into LTEM for strong and weak electrolytes later . We completed the theory very recently by extending it to CZE systems with fast equilibria in general, e.g., to EKC, and we are publishing the results in a separate paper in this special issue . Therefore, we refer the reader to that paper for detailed description of LTEM while we summarize a few points relevant for our present discussion below.…”

Section: Introductionmentioning

confidence: 99%

“…We refer to this theory as the first‐order nonlinear theory of electromigration (NLTEM). An interested reader can find a thorough analysis of NLTEM in the other paper published in this special issue . In Eq.…”

Section: Introductionmentioning

confidence: 99%

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The dynamics of band (peak) shape development in capillary zone electrophoresis in light of the linear theory of electromigration

et al. 2018

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The continuity equations that describe the movement of ions in liquid solutions under the influence of an external stationary electric field, as it is utilized in electrophoresis, were introduced a long time ago starting with Kohlrausch in 1897. From that time on, there have been many attempts to solve the equations and to discuss the results. In electrophoresis, special attention has always been devoted to the peak shapes obtained by the detector since the shapes have a tight connection with the phenomena taking place during electromigration and influence the efficiency and selectivity of the separation. Among these phenomena, the most important is electromigration dispersion. In this commented review paper, we compare various models of electromigration, try to find points that connect them, and discuss the range of their validity in light of the linear and nonlinear theory of electromigration.

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Influence of salt and acetonitrile on the capillary zone electrophoresis analysis of imatinib in plasma samples

et al. 2019

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Influence of salt and acetonitrile on the capillary zone electrophoresis analysis of imatinib in plasma samplesA simple, sensitive, specific, and cost-effective analytical methodology was developed for the analysis of human plasma samples spiked with imatinib by CZE with on-line UV detection in the context of Therapeutic Drug Monitoring. Several analytical conditions such as the ionic strength (I) and the pH of the BGE composed of citric acid and -amino caproic acid were studied in regards of the presence of sodium chloride (NaCl) in plasma samples (1% m/v). Computer simulations (Simul software) were used to confirm the experimental results and to understand imatinib electrophoretic behavior in the presence of NaCl. Furthermore, the advantages of adding ACN to the sample containing NaCl to combine efficient protein precipitation and on-line CZE stacking of imatinib were demonstrated. LOD and LOQ values of 48 and 191 ng/mL were obtained from plasma sample supernatant after protein precipitation with ACN, which is much lower than mean imatinib plasma level observed for patients treated by imatinib mesylate (about 1000 ng/mL). Good linearity was obtained in the concentration range 191-5000 ng/mL (R 2 > 0.997). RSD of less than 1.68% and 2.60% (n = 6) for migration times and corrected peak areas, respectively, were observed at the LOQ.

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Generalized model of the linear theory of electromigration and its application to electrokinetic chromatography: Theory and software PeakMaster 6—Next Generation

Cited by 25 publications

References 40 publications

Determination of thermodynamic acidity constants and limiting ionic mobilities of weak electrolytes by capillary electrophoresis using a new free software AnglerFish

Determination of thermodynamic acidity constants and limiting ionic mobilities of weak electrolytes by capillary electrophoresis using a new free software AnglerFish

The dynamics of band (peak) shape development in capillary zone electrophoresis in light of the linear theory of electromigration

Influence of salt and acetonitrile on the capillary zone electrophoresis analysis of imatinib in plasma samples

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