Aspects of Optimisation of Separation of Drugs by Chemometrics

Harang, Valérie

January 2003

Statistical experimental designs have been used for method development and optimisation of separation. Two reversed phase HPLC methods were optimised. Parameters such as the pH, the amount of tetrabutylammonium (TBA; co-ion) and the gradient slope (acetonitrile) were investigated and optimised for separation of erythromycin A and eight related compounds. In the second method, a statistical experimental design was used, where the amounts of acetonitrile and octane sulphonate (OSA; counter ion) and the buffer concentration were studied, and generation of an α-plot with chromatogram simulations optimised the separation of six analytes. The partial filling technique was used in capillary electrophoresis to introduce the chiral selector Cel7A. The effect of the pH, the ionic strength and the amount of acetonitrile on the separation and the peak shape of R- and S-propranolol were investigated. Microemulsion electrokinetic chromatography (MEEKC) is a technique similar to micellar electrokinetic chromatography (MEKC), except that the microemulsion has a core of tiny droplets of oil inside the micelles. A large number of factors can be varied when using this technique. A screening design using the amounts of sodium dodecyl sulphate (SDS), Brij 35, 1-butanol and 2-propanol, the buffer concentration and the temperature as factors revealed that the amounts of SDS and 2-propanol were the most important factors for migration time and selectivity manipulation of eight different compounds varying in charge and hydrophobicity. SDS and 2-propanol in the MEEKC method were further investigated in a three-level full factorial design analysing 29 different compounds sorted into five different groups. Different optimisation strategies were evaluated such as generating response surface plots of the selectivity/resolution of the most critical pair of peaks, employing chromatographic functions, simplex optimisation in MODDE and 3D resolution maps in DryLab™. Molecular descriptors were fitted in a PLS model to retention data from the three-level full factorial design of the MEEKC system. Two different test sets were used to study the predictive ability of the training set. It was concluded that 86 – 89% of the retention data could be predicted correctly for new molecules (80 – 120% of the experimental values) with different settings of SDS and 2-propanol. Statistical experimental designs and chemometrics are valuable tools for the development and optimisation of analytical methods. The same chemometric strategies can be employed for all types of separation techniques.

Pharmaceutical chemistry

optimisation

separation

chemometrics

high performance liquid chromatography

electrodriven techniques

statistical experimental design

molecular modelling

chiral separation

cellobiohydrolase

Farmaceutisk kemi

Pharmaceutical chemistry

Farmaceutisk kemi

Separation of Pharmaceuticals by Capillary Electrophoresis using Partial Filling and Multiple-injections

Lodén, Henrik

January 2008

Different multiple-injection methodologies and the partial filling technique (PFT) have been utilized for separation of pharmaceuticals by capillary elec-trophoresis. In multiple-injection capillary zone electrophoresis (MICZE), the samples and all standards, used for construction of the calibration curve, are analyzed within a single run. Four different modes of MICZE have been described by means of equations, which were experimentally verified. The developed equations facilitate the transfer from conventional single-injection CZE to one or more of these MICZE-modes, depending on the selectivity between the analyte and the injection marker. The applicability of two of these modes was then demonstrated by quantification of buserelin and salbutamol, re-spectively in commercially available pharmaceutical products. The content of buserelin in an injection solution was determined to 0.94 mg/ml, which only deviated slightly from the declared concentration (1 mg/ml). An alter-native mode of MICZE, offering a higher number of sequential sample injec-tions, was then utilized for single-run determination of salbutamol in 15 tab-lets, with a labelled content of 8 mg. The average content of the tablets was determined to 7.8 mg, with an intra-tablet variation of 3 % or less. Moreover, UV- and mass-spectrometric detection of enantiomeric amines, resolved by non-aqueous capillary electrophoresis (NACE), was demon-strated. Separation of enantiomeric amines was achieved using the chiral selector (-)-2,3:4,6-di-O-isopropylidene-2-keto-L-gulonic acid, (-)-DIKGA. Introduction of the non-volatile (-)-DIKGA into the mass-spectrometer was avoided by using the PFT, where the capillary is only partially filled with electrolyte containing the chiral selector.

Capillary Coating

Chiral Separation

Enantiomers

Mass-spectrometric Detection

Method Validation

Non-aqueous Capillary Electrophoresis

Organic Solvents

Pharmaceutical Analysis

Quantitative Analysis

Development of Advanced Capillary Electrophoresis Techniques with UV and Mass Spectrometry Detection for Forensic, Pharmaceutical and Environmental Applications

Fu, Hanzhuo

01 July 2014

Capillary electrophoresis (CE) is a modern analytical technique, which is electrokinetic separation generated by high voltage and taken place inside the small capillaries. In this dissertation, several advanced capillary electrophoresis methods are presented using different approaches of CE and UV and mass spectrometry are utilized as the detection methods. Capillary electrochromatography (CEC), as one of the CE modes, is a recent developed technique which is a hybrid of capillary electrophoresis and high performance liquid chromatography (HPLC). Capillary electrochromatography exhibits advantages of both techniques. In Chapter 2, monolithic capillary column are fabricated using in situ photoinitiation polymerization method. The column was then applied for the separation of six antidepressant compounds. Meanwhile, a simple chiral separation method is developed and presented in Chapter 3. Beta cycodextrin was utilized to achieve the goal of chiral separation. Not only twelve cathinone analytes were separated, but also isomers of several analytes were enantiomerically separated. To better understand the molecular information on the analytes, the TOF-MS system was coupled with the CE. A sheath liquid and a partial filling technique (PFT) were employed to reduce the contamination of MS ionization source. Accurate molecular information was obtained. It is necessary to propose, develop, and optimize new techniques that are suitable for trace-level analysis of samples in forensic, pharmaceutical, and environmental applications. Capillary electrophoresis (CE) was selected for this task, as it requires lower amounts of samples, it simplifies sample preparation, and it has the flexibility to perform separations of neutral and charged molecules as well as enantiomers. Overall, the study demonstrates the versatility of capillary electrophoresis methods in forensic, pharmaceutical, and environmental applications.

Capillary Electrophoresis (CE)

Capillary Electrochromatography (CEC)

Monolith

in situ polymerization

Chiral Separation

Cyclodextrin (CD)

Antidepressants

Cathinones (Bath Salts)

Microcystins

Enantioselektivní separační systémy v kapilární elektroforéze / Enantioselective separation systems in capillary electrophoresis

Svobodová, Jana

January 2012

Chiral separation systems in capillary electrophoresis are in the scope of interest of many research groups all over the world. Therefore, the need to develop reliable theoretical models, which would help to explain phenomena connected with chiral separations or optimization of separation conditions, is obvious. In this thesis several mathematical models and approaches that can fulfill these requirements are presented. First part of the thesis deals with the determination of rate constants of interconversion of enantiomers by means of dynamic capillary electrophoresis. We focused on mixtures of chiral selectors and formulated a mathematical model, which enables to determine rate constants of interconversion in such systems. Mixtures of chiral selectors are very popular in separation practice due to their enhanced enantioselectivity. The theoretical model established in the thesis is able to explain the separation mechanisms of multi-chiral selector systems and to propose and verify possible ways of their optimization. In addition, the separation mechanism in systems with simultaneous cyclodextrin and borate complexation was revealed. Finally we present the complete mathematical model of electromigration in systems with complexation agents. The model is implemented into our simulation tool Simul 5...

Selektivně susbstituované cyklodextriny pro analytické a farmaceutické aplikace / Selectively substituted cyclodextrins for analytical and pharmaceutical applications

Benkovics, Gábor

January 2018

3 Selectively substituted cyclodextrins for analytical and pharmaceutical applications Abstract This thesis is focused on the selective modification of cyclodextrins, and its primary aim is the preparation and characterization of mono- and persubstituted derivatives of cyclodextrins in a regioselective and straightforward manner. The work is divided into two main parts describing synthetic strategies and applications of modified cyclodextrins with one or several substituents, respectively. The first section deals with the introduction of a single chromophoric moiety on the cyclodextrin scaffold such as cinnamyl, rhodaminyl, fluoresceinyl and eosinyl groups. The complete set of monocinnamyl-α-cyclodextrin regioisomers has been prepared by direct alkylation, and the self-assembling properties of the corresponding regioisomers were thoroughly investigated by dynamic light scattering and NMR experiments. These investigations revealed that the different isomers (mono-6-O-, mono-2-O- and mono-3-O- cinnamyl-α-cyclodextrin) form distinct supramolecular species through intermolecular association. A fast method for the unambiguous identification of the pure regioisomers has also been developed based on a series of 2D NMR measurements. Xanthene-modified β-cyclodextrins, other representatives of monosubstituted...

Enantioselectivitat de derivats de prolina com a selectors quirals en cromatografia en contracorrent

Pérez Montero, Anna Maria

08 November 2012

En les últimes dècades, el fenomen de l’enantioselectivitat ha adquirit una importància creixent per a la indústria farmacèutica a l’hora del desenvolupament de nous fàrmacs. Això és degut a la observació d’una diferent resposta per part de l’organisme en funció de l’estereoquímica de la molècula exògena administrada, ocasionada per l’elevada estereoselectivitat dels processos fisiològics. Diferents exemples es poden trobar a la literatura a partir del desastre produït pel fàrmac anomenat talidomida, en què es va responsabilitzar la forma S de l’efecte teratogen mentre s’assignà l’acció sedant a la R. Molts altres fàrmacs quirals presenten una dicotomia d’efecte pels enantiòmers. A mode d’exemple l’anestèsic prolocaïna presenta diferències d’activitat entre enantiòmers. En aquest cas la forma de configuració S posseix majoritàriament l’acció anestèsica, mentre que la R és responsable dels efectes tòxics del fàrmac, que pot produir metahemoglobinèmia. Així, doncs, l’adiministració, i per tant la comercialització de fàrmacs enantiomèricmanet purs, simplifica aspectes farmacològics, farmacocinètics, terapèutics i toxicològics de l’acció dels fàrmacs. Altres avantatges que s’aconsegueixen amb aquest procedir són la disminució de la dosi de fàrmac requerida per a produir l’efecte desitjat i la menor variabilitat interpersonal de l’efecte produït per una determinada dosi. Degut a la importància de l’administració de fàrmacs enantiomèricament purs, en el present treball s’estudia l’aplicació de la cromatografia en contracorrent (CPC/CCC) en la separació de mescles racèmiques. La CCC/CPC és una variant de la cromatografia líquida, en la què la fase mòbil i la fase estacionària estan formades per dos líquids immiscibles entre sí. Així, s’han dissenyat i sintetitzat noves entitats quirals derivades de l’aminoàcid L-prolina. Una vegada caracteritzades, s’ha estudiat la seva aplicació en la separació de racèmics, a la vegada que s’ha estudiat el seu mecanisme d’enantioreconeixment per poder establir unes pautes a l’hora de dissenyar nous selectors quirals (SQ). D’altra banda, la CCC/CPC al tractar-se d’una tècnica que es dona entre dos líquids immiscibles. S’ha estudiat l’aplicació de nous sistemes de dissolvents menys contaminats, com es el cas de l’etoxinonafluorobutà. Així, s’han construït diferents sistemes de dissolvents que contenen el dissolvent fluorat, a l’hora que s’han utilitzat SQs fluorats. / Nowdays, the significance of the enantiomèric purity in the chiral active ingredients used in drug manufacture is well recognized. In addition, the strict regulations established by health authorities on the commercialisation of chiral drugs, has led to the requirement for analytical and preparative methods for enantioseparation. Although diverse procedures exist, chromatographic techniques are amongst the most used to resolve mixtures of enantiomers at a preparative level. In the present doctoral thesis we intend to study the enantioselectivity phenomena of L-proline derivatives as chiral selectors in countercurrent chromatography (CCC) using diferent solvent systems. CCC is an effective separation technique base don the differences in partitioning of solutes in a sample between two non-miscible solvents or solutions that constitute the solvent system. Therefore, the mobile and the stationary phases in the chromatographic process are liquids. The absence of a solid support opens a whole range of possibilities to apply alternative elution modes alternatives to the classic one. The exchange between mobile phase and stationary phase during the separation, that CCC only involves the change of a valve position, allows the dual and mutidual mode. Also, the application of ph-zone refining, a kind of displacement chromatography that involve the addition of a displacement agent in the mobile phase, has been evaluated in order to improve the separation of ionizable racemates. Finally, the evaluation of the enantioselectivite capacity of fluorinated solvents and chiral selectors has been tested in CCC and in liquid membranes.

Separació quiral

Separación quiral

L-prolina

Delectors quirals

Delectores quirales

Cromatografia de repartiment centrífug

Cromatografía de reparto centrífugo

Chiral separation

Enantiòmers

Enantiómeros

Enantiomers

Chiral delectors

Centrifugal partition chromatography

Ciències de la Salut

615

Využití vysokoúčinných separačních metod pro analýzy biologicky aktivních látek / Analysis of biologically active compounds using high performance separation methods

Adamusová, Hana

January 2017

In the first part of this doctoral thesis, a new analytical HPLC-MS/MS method for monitoring of concentration changes of 17β-estradiol (βE2) during in vitro mouse sperm capacitation was developed. Capacitation was performed for three initial concentrations of βE2 (200, 20 and 2 μg/L). For all the concentrations a similar trend for the total unbound βE2 was observed. In general, the βE2 concentration decreased to reach its minimum and then increased again. The position of the minimum differed for the individual tested βE2 concentrations. Experimentally obtained results were subjected to the kinetic analysis. The curves fitted through the experimentally determined points displayed an autocatalytic character. For the agreement between the curves obtained by fitting through the experimental points and the theoretical calculated curves, it is necessary to assume that the first step is adsorption of βE2 onto the surface of the sperm controlled by Langmuir isotherm. The kinetic study was also used to study the effects of fluorides and aluminium fluoride complexes on the capacitation of mouse sperm. The experimental points were in very good agreement with the shape of the theoretical curves and this fact verifies the mechanism of the mouse sperm capacitation kinetics. In the second part of this work, two...

Synthesis, Photochemical Properties and DNA Binding Studies of DNA Cleaving Agents Based on Chiral Dipyridine Dihydrodioxins Salts

Shamaev, Alexei E.

13 November 2015

No description available.

Pharmacy Sciences

Biomedical Research

Molecular Physics

Molecular Chemistry

Chemistry

Pharmaceuticals

Organic Chemistry

Biochemistry

Molecules

synthesis of photoactive compounds

photoactivity

chiral separation

DNA binding

DNA cleavage

Drug-DNA interactions

femtosecond ultrafast spectroscopy

phoretic studies of DNA

mass-spectrometry of DNA

NMR of DNA

Caractérisation d’inhibiteurs d’anhydrase carbonique IX, études de complexes supramoléculaires et interactions moléculaires par résonance plasmonique de surface / Characterization of carbonic anhydrase IX inhibitors, studies of supramolecular complexes and molecular interactions by surface plasmon resonance

Florent, Tiphaine

05 December 2014

L’anhydrase carbonique IX (AC IX h) est une enzyme souvent associée à un mauvais pronostic, à la progression tumorale et à la régulation du pH extracellulaire des cellules tumorales sur un plan moléculaire. L’AC IX est très peu exprimée dans les tissus sains mais par contre, elle est surexprimée au sein de la masse tumorale, ce qui permet de la qualifier comme une cible thérapeutique potentielle. Une nouvelle classe d’inhibiteurs d’anhydrase carbonique IX a été conçue et synthétisée par notre équipe. Cette série de composés présente une solubilité aqueuse faible, limitant ainsi son développement pharmaceutique. La complexation de ces composés avec des cyclodextrines offre la possibilité d’améliorer leur solubilité et leur biodisponibilité sans affecter leur structure originale. Des études de complexation entre nos composés et diverses cyclodextrines ont été réalisées, afin de déterminer le complexe supramoléculaire le plus adéquat. Les études des complexes Analyte / Cyclodextrine ont été réalisées par deux techniques complémentaires, la résonance magnétique nucléaire et l’électrophorèse capillaire. La complexation de six sulfonamidodiarylpyrazoles originaux avec six cyclodextrines (-, - et - CDs, hydroxypropyle HP--CD, méthyle Me--CD ou amino NH2--CD) a été étudiée au pH physiologique. Les constantes de complexation, la stœchiométrie et l’étude structurale des complexes ont alors été déterminées. Par ailleurs, la présence d’un centre d’asymétrie dans la série des alcools secondaires, synthétisés sous leurs formes racémiques, a orienté nos travaux vers le développement de méthodes séparatives à l’échelle préparative afin de disposer de quantités suffisantes d’énantiomères permettant la détermination de leurs affinités pour la cible. Les séparations chirales ont été mises au point par chromatographie liquide haute performance, par chromatographie en phase supercritique ou par électrophorèse capillaire. La caractérisation de quatre analytes vis-à-vis de l’anhydrase carbonique II (AC II) a été réalisée, dans un premier temps, par des études d’interaction moléculaire utilisant des méthodes biophysiques qui ne nécessitent pas de marquage des partenaires, la résonance plasmonique de surface, la calorimétrie de titration isotherme et la thermal shift assay. L’objectif de cette comparaison était de valider les résultats obtenus mais aussi de sélectionner la méthode d’analyse permettant l’étude d’une grande série de composés avec l’isoforme d’intérêt (AC IX). Les résultats obtenus nous ont conduits à choisir la résonance plasmonique de surface (RPS) comme technique de choix pour l’étude de l’affinité des sulfonamidodiarylpyrazoles. Les affinités de seize composés pour trois isoformes (AC II, IX et XII) ont ensuite été déterminées par RPS. Des affinités de l’ordre du nanomolaire ont été obtenues pour les trois isoformes. De cette étude, deux composés possédant une affinité intéressante pour l’AC IX et une sélectivité AC IX versus AC II ont été selectionnés. De plus, l’étude de l’affinité des composés optiquement purs a permis de mettre en évidence une énantioselectivité isoforme dépendante. / Carbonic anhydrase (CA) IX expression is increased upon hypoxia and has been proposed as a therapeutic target since it has been associated with poor prognosis, tumor progression and pH regulation. A new class of human carbonic anhydrase IX (hCA IX) inhibitors, diarylpyrazole sulfonamide derivatives, has been synthesized in our team. These compounds have a very limited water solubility which limits their pharmaceutical development. The complexation with cyclodextrins (CDs) offers the possibility to improve their solubility without affecting their original structure and has proved to be one of the most effective. The studies of the complexes formed between our compounds and various CDs have been performed, in order to choose the most appropriate CD. We investigate by NMR and capillary electrophoresis the complexes formed between six original diarylpyrazole sulfonamide derivatives and six CDs (native -, - and - CDs, hydroxypropylated HP--CD, methylated Me--CD or amino NH2--CD) at physiological pH. Futhermore, as these compounds have a chiral center, it was essential to separate their enantiomers and verify their optical purities before envisaging the study of their pharmacological activity. The enantiomeric purification was performed by three separative methods, the high performance liquid chromatography, the supercritical fluid chromatography and the capillary electrophoresis. This study permit to obtain optically pure compound in order to determine affinity of carbonic anhydrase. To determine the affinities of derivatives with isoforms, we performed first a comparison of three label-free methods for quantitative assessment of binding strength between carbonic anhydrase II and sulfonamides derivatives. The formation constants have been determined by surface plasmon resonance, isothermal titration calorimetry and thermal shift assay, which characterize the interaction between two partners. This study was useful to select and to validate the surface plasmon resonance (SPR) for the molecular interaction between carbonic anhydrases and all our derivatives. Affinities of sixteen compounds for three carbonic anhydrase isoforms (CA II, IX and XII) were then determined by SPR. These compounds have nanomolar affinities for three isoforms. Two compounds have affinities with great interest for the isoform CA IX, and a good selectivity CA IX versus CA II and should be considered as lead compounds. Additionally, some of optically pure compounds have shown an enantioselectivity for the AC isoforms

Anhydrase carbonique

Sulfonamidodiarylpyrazole

Interaction moléculaire

Résonance plasmonique de surface

Calorimétrie de toitration isotherme

Cyclodextrines

Séparation chirale

Electrophorèse capillaire

Carbonic anhydrase

Molecular interaction

Surface plasmon resonance

Isothermal titration calorimetry

Thermal shift assay

Cyclodextrins

Chiral separation

Capillary electrophoresis

Liquid and supercritical chromatography

Využití vysokoúčinných separačních metod pro chirální i achirální separace / The application of high-efficiency separation methods for chiral and achiral separations

Šubová, Martina

January 2019

In the first part of the doctoral thesis, the capillary electrophoresis was used to test the potential chiral separation properties of monosubstituted cyclodextrin derivatives, namely PEMEDA- and PEMPDA-β-cyclodextrins for the group of selected analytes. Both selectors exhibited excellent enantioseparation properties for N-boc-D,L-tryptophan, where the enantiomers were completely separated even at 0.5 mmol·l-1 concentration of the cyclodextrin derivative in the background electrolyte. However, the differences between the enantiodiscrimination properties of individual derivatives were minimal. The second test group consisted of two cyclodextrin derivatives, namely 2-O- and 3-O- cinnamyl-α-cyclodextrins. These derivatives are able to form supramolecular polymers in aqueous solutions that disintegrate at elevated temperature. The formation of these polymers was tested by NMR and DLS experiments. None of the tested cyclodextrin derivatives showed enantiodiscrimination properties towards a group of selected analytes. In the frame of antipredatory study, HPLC-MS/MS method working in HILIC mode was used for separation of ten pterin derivatives and riboflavin, which can be present as pigments in insects, reptiles or amphibians as a part of their warning coloration. The developed methodology was applied for...