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Étude de la spéciation exhaustive des lanthanides et des actinides pour les procédés de traitement du combustible nucléaire : approche intégrée par spectrométries de masse / Development of an HILIC method with simultaneous ESIMS and ICPMS detection for lanthanide and actinide speciation in nuclear fuel treatment processesBlanchard, Evelyne 12 September 2018 (has links)
Dans ce travail, des méthodes d’analyses de spéciation exhaustive de lanthanides (Ln), en présence d'acides polyaminocarboxyliques (EDTA, DTPA) utilisés comme agents de desextraction dans les procédés de traitement de combustibles nucléaires usés, ont été développées par couplage simultané HILIC-ESIMS/ICPMS. Pour réduire les volumes d’effluents chromatographiques tout en maintenant des séparations efficaces et rapides, les performances de colonnes remplies de particules entièrement poreuses (FPP) et de particules superficiellement poreuses (SPP) ont été évaluées, aboutissant à la sélection de la technologie FPP de diamètre sub-2-µm. Selon la composition des échantillons, le couplage HILIC-ESIMS peut s'avérer suffisant pour des études de spéciation exhaustive, nécessitant l'évaluation du potentiel de l'ESIMS pour la mesure de composition isotopique d'éléments. Des méthodes de mesure de rapports isotopiques du natSm complexé à l'EDTA ont alors été développées avec deux types d’ESIMS, en introduisant directement l'échantillon. Une méthode de déconvolution a ensuite été développée pour déterminer les rapports isotopiques du natSm. L'approche a été validée avec un complexe de Sm enrichi en 147Sm et 149Sm. L'étape ultérieure a consisté à déterminer les rapports isotopiques du Sm avec le couplage simultané, en appliquant plusieurs méthodes de traitements de signaux transitoires. Des méthodes de quantification par étalonnage externe et par dilution isotopique spécifique ont été ensuite développées avec ce même complexe. Les développements réalisés avec le Sm pourront être étendus à d'autres lanthanides et aux actinides. / In this work, analysis methods of lanthanide (Ln) comprehensive speciation, in the presence of polyaminocarboxylic acids (EDTA, DTPA) used as back extraction agents in spent nuclear fuel treatment processes, were developed by simultaneous coupling HILIC-ESIMS/ICPMS. To reduce chromatographic effluent volumes while maintaining efficient and rapid separations, the performances of columns packed with fully porous particles (FPP) and superficially porous particles (SPP) were evaluated, resulting in the selection of the sub-2-µm FPP technology. Depending on the sample composition, HILIC-ESIMS coupling may be sufficient for comprehensive speciation studies, requiring assessment of the ESIMS potential for isotopic composition measurement of elements. The isotopic ratio measurement methods of natSm complexed with EDTA were then developed with two types of ESIMS, directly introducing the sample. A deconvolution method was then developed to determine the natSm isotope ratios. The approach was validated with Sm complex enriched in 147Sm and 149Sm. The next step was to determine the Sm isotopic ratios with the simultaneous coupling, by applying several methods of transient signal processing. Quantification methods by external calibration and specific isotopic dilution were then developed with this same complex. The developments carried out with Sm may be extended to other lanthanides and actinides.
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Optimisation de techniques analytiques pour caractériser les antibiotiques dans les systèmes aquatiques / Analytical methodologies optimisation for antibiotics determination in aqueous systemsMokh, Samia 13 December 2013 (has links)
Les antibiotiques sont des polluants présents dans les écosystèmes aquatiques, réceptacles ultimes des substances anthropiques. L’étude de ces composés porte sur leur rémanence dans le milieu ou leurs effets sur des organismes naturels. De nombreux efforts ont été faits à l’échelle mondiale pour l’évaluation de la qualité environnementale des différentes ressources en eau pour la survie des espèces aquatiques mais aussi pour la consommation humaine et le risque sanitaire lié. Dans ce but, l’optimisation des techniques analytiques pour ces composés dans les systèmes aquatiques demeure une nécessité. Notre objectif est de développer des méthodes d’extraction et de détection pour 12 molécules appartenant à la famille des aminoglycosides et de la colistine dans les eaux des stations d’épuration et les eaux hospitalières. L’absence des méthodes d’analyse pour ces composés ainsi que le manque des études permettant leur détection dans l’eau sont les raisons de leur étude. L’Extraction sur Phase Solide (SPE) en mode classique (hors ligne) ou en ligne, suivie d’une analyse par la Chromatographie Liquide couplée à la Spectrométrie de Masse (LC/MS/MS) est la méthode la plus couramment employée pour ce type d’analyse. Les paramètres sont optimisés et validés afin d’assurer les meilleures conditions utilisées dans les analyses environnementales. Cette technique a été appliquée sur des échantillons réels des eaux des stations d’épuration à Bordeaux et au Liban. / Antibiotics are pollutants present in aquatic ecosystems ultimate receptacles of anthropogenic substances. These compounds are studied as their persistence in the environment or their effects on natural organisms. Numerous efforts have been made worldwide to assess the environmental quality of different water resources for the survival of aquatic species, but also for human consumption and health risk related. Towards goal, the optimization of analytical techniques for these compounds in aquatic systems remains a necessity. Our objective is to develop extraction and detection methods for 12 molecules of aminoglycosides and colistin in sewage treatment plants and hospitals waters. The lack of analytical methods for analysis of these compounds and the deficiency of studies for their detection in water is the reason for their study. Solid Phase Extraction (SPE) in classic mode (offline) or online followed by Liquid Chromatography analysis coupled with Mass Spectrometry (LC/MS/ MS) is the most method commonly used for this type of analysis. The parameters are optimized and validated to ensure the best conditions for the environmental analysis. This technique was applied to real samples of wastewater treatment plants in Bordeaux and Lebanon.
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Développement de méthodes bidimensionnelles en ligne LCxLC-MS pour l’analyse de composés chargés / Development of two-dimensional liquid chromatography LCxLC-MS methods for the analysis of charged compoundsD'Attoma, Amélie 19 November 2013 (has links)
Ce manuscrit expose le développement de méthodes bidimensionnelles en ligne pour l'analyse de composés chargés en couplage avec la spectrométrie de masse. Le contexte de l'étude et les principes théoriques de la chromatographie en phase liquide unidimensionnelle et bidimensionnelle sont tout d'abord présentés. Les conditions expérimentales telles que l'instrumentation, les colonnes, les composés étudiés sont détaillés. Des études unidimensionnelles ont été effectuées afin de connaître le comportement cinétique des petites molécules ionisables et des peptides selon la phase mobile et la température. L'orthogonalité de systèmes chromatographiques et les capacités de pics générées ont ensuite été étudiés afin de connaître les conditions expérimentales les plus intéressantes pour l'analyse des composés chargés. Les comparaisons de systèmes ont été effectuées avec de nouveaux descripteurs d'orthogonalité et de capacité de pic effective qui ont été établit. Les systèmes bidimensionnels LCxLC ont ensuite été mis en place. L'utilité d'un split pour réduire le volume injecté en seconde dimension est envisagée. Des limites en termes de volume injecté dans la seconde dimension ont été définies en RPLC et en HILIC. Des mélanges de peptides ont été séparés par RPLCxRPLC(-MS), RPLCxHILIC(-MS) et HILICxRPLC. Le couplage avec la spectrométrie de masse est optimisé. L'intérêt des séparations bidimensionnelles est mis en évidence par rapport à des séparations LC-MS classiques / This manuscript is dedicated to the development of on-line two-dimensional liquid chromatography for the analysis of charged compounds with mass spectrometry coupling. The context of the study and the theoretical principles of liquid chromatography in one or two dimensions are presented. Experimental conditions such as instrumentation, columns, studied compounds are detailed. Some one-dimensional studies have been experimented to know the kinetic behaviour of small ionisables molecules and peptides depending on conditions. The orthogonality of chromatographic system and generated peak capacity have then been studied in order to know which experimental conditions are the most interesting for the analysis of charged compounds. The comparisons of systems have been done with new descriptor for orthogonality and effective peak capacity. Two-dimensional systems were then set up. Some limits in term of injected volume in the second dimension have been established in RPLC and in HILIC. The usefulness of a split to reduce the injected volume in second dimension has been studied. Some peptides mixtures have been separated by RPLCxRPLC(-MS), RPLCxHILIC(-MS) and HILICxRPLC. The MS coupling has been optimized. The interest of two dimensional separations is underlined compared to classical LC-MS separations
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Desenvolvimento de colunas monolíticas poliméricas para extração em fase sólida de metais e separação de neurotransmissores por nanocromatografia de interação hidrofílica / Development of polymeric monolithic columns for solid phase extraction of metals and separation of neurotransmitters by hydrophilic interactionRibeiro, Luiz Fernando 17 October 2018 (has links)
Nesse trabalho de duas partes, colunas monolíticas poliméricas foram aplicadas em extração em fase sólida e em nanocromatografia capilar, duas das suas mais importantes aplicações. Na primeira parte foi desenvolvido um monolito para extração em fase sólida dos metais Cd(II), Pb(II) e Cu(II), que foi acoplada on-line com detecção eletroquímica com o auxílio de instrumentação de análise por injeção sequencial (SIA). A coluna usada como suporte sólido para extração em fase sólida foi obtida com a copolimerização entre formador de ligação cruzada etileno dimetacrilato (EDMA) e monômero funcional glicidil metacrilato (GMA), preparada a partir de uma mistura reacional composta de 30% GMA, 10% EDMA, 5% H2O, 35% n-propanol e 20% 1,4- butanodiol, aquecida durante 24 horas à 60°C. Essa composição e condições de polimerização favoreceram a permeabilidade do monolito, o que foi necessário para o acoplamento no SIA. Após a obtenção do monolito base o mesmo foi modificado pela reação do anel epóxi do grupo GMA com ácido iminodiacético (IDA) para garantir propriedades de quelação de metais e maior capacidade de adsorção para a coluna. O monolito foi caracterizado com imagens de microscopia de varredura eletrônica (MEV) e a capacidade de extração foi de 4,4 ± 0,3 mg Cu(II) m-1 obtida com curvas de breakthrough. O método de determinação on-line dos metais operado por SIA, que executou as etapas de carregamento de amostra, limpeza da coluna, eluição dos analitos e recondicionamento dos sítios ativos teve frequência amostral de 6,8 injeções por hora. Os limites de detecção (LD) e quantificação (LQ) para o método foram, respectivamente, de 1,0 e 3,3 µg L-1 para o Cd(II), 0,7 e 2,2 µg L-1 para o Pb(II) e 0,5 e 1,8 µg L-1 para o Cu(II). O método foi aplicado na determinação dos metais em diferentes matrizes de águas naturais, sendo encontrado Cu(II) em algumas amostras. A exatidão do método foi avaliada com estudos de adição e recuperação nessas águas, obtendo-se valores entre 75,5 e 116,6%. Na segunda parte do trabalho foi utilizada uma coluna polar composta da sulfobetaína zwitteriônica N,N-dimetil-N-metacriloil-oxietil-N-(3-sulfopropil) amônio betaína (MEDSA) e do formador de ligações cruzadas dioxietil dimetacrilato (DiEDMA) em Nanocromatografia de Interação Hidrofílica (HILIC) para fazer a separação de Dopamina, Epinefrina, Norepinefrina, L-DOPA, Tiramina, DOPAC e Ácido Homovanílico, neurotransmissores, alguns de seus metabólitos e precursores, compostos polares de baixa massa molecular. A seletividade cromatográfica da coluna foi altamente dependente da composição da fase móvel aquosa:orgânica, apresentando um mínimo de retenção na transição do mecanismo HILIC para a fase reversa (RP). Ajustando os dados experimentais de fatores de retenção em função da composição da fase móvel com o modelo de retenção duplo foi possível prever qual composição de fase móvel promoveria a separação dos analitos da mistura, que foi atingida em torno de 85% acetonitrila e 15% H2O. A coluna foi modificada com o grupo zwitteriônico 2-metacriloil-oxietil fosforilcolina (MPC) por UV grafting e a modificação da metade do comprimento da coluna durante 30 minutos de exposição UV levou às mudanças na seletividade cromatográfica. / In this two parts work, polymeric monolithic columns were applied in solid phase extraction and in capillary nanochromatography, two of their most important applications. In the first part, a monolith for solid phase extraction of Cd(II), Pb(II) and Cu(II) metals was developed and coupled online with electrochemical detection with the aid of sequential injection analysis instrumentation (SIA). The column used as a solid support for solid phase extraction was obtained by copolymerization between the crosslinker ethylene dimethacrylate (EDMA) and the functional monomer glycidyl methacrylate (GMA), prepared from a reaction mixture composed of 30% GMA, 10% EDMA, 5% H2O, 35% n-propanol and 20% 1,4-butanediol, heated at 60 ° C for 24 hours. This composition and polymerization conditions favored monoliths permeability, which was required for the SIA coupling. After obtaining the base monolith, it was modified by reaction of the epoxy ring of the GMA group with the iminodiacetic acid (IDA) to guarantee metals chelating properties and increase adsorption capacity for the column. The monolith was characterized by scanning electron microscopy (SEM) images and extraction capacity was 4.4 ± 0.3 mg Cu(II) m-1, obtained from breakthrough curves. The method for online determination of metals operated by SIA, which performed the steps of sample loading, column cleaning, analyte elution and reconditioning of active sites had a sampling throughput of 6.8 injections per hour. The limits of detection (LD) and quantification (LQ) for the method were, respectively, 1.0 and 3.3 µg L-1 for Cd(II), 0.7 and 2.2 µg L-1 for the Pb(II) and 0.5 and 1.8 µg L-1 for Cu(II). The method was applied for the determination of metals in different natural water matrices, finding Cu(II) in some samples. The accuracy of the method was evaluated with addition and recovery studies in these waters, finding recoveries between 75.5 and 116.6%. In the second part of the work, a polar column composed of the zwitterionic sulfobetaine N,N-dimethyl-N-methacryloyloxyethyl-N-(3-sulfopropyl) ammonium betaine (MEDSA) and the cross-linker dioxyethyl dimethacrylate (DiEDMA) was used in Hydrophilic Interaction Nanocromatography (HILIC) to separate Dopamine, Epinephrine, Norepinephrine, L-DOPA, Tyramine, DOPAC and Homovanilic Acid, neurotransmitters, some of its metabolites and precursors, which are polar compounds of low molecular mass. The chromatographic selectivity of the column was highly dependent on the composition of the aqueous:organic mobile phase, showing a minimum retention at the transition from the HILIC to the reverse phase (RP) mechanism. By adjusting the experimental data of retention factors as a function of mobile phase composition with the double retention model it was possible to predict which mobile phase composition would promote the separation of the mixed analytes, which was achieved around 85% acetonitrile and 15% H2O. The column was modified with the 2-methacryloyl oxyethyl phosphorylcholine (MPC) zwitterionic group by UV grafting and the modification of half columns length during 30 minutes of UV exposure led to changes in the chromatographic selectivity.
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Desenvolvimento de colunas monolíticas poliméricas para extração em fase sólida de metais e separação de neurotransmissores por nanocromatografia de interação hidrofílica / Development of polymeric monolithic columns for solid phase extraction of metals and separation of neurotransmitters by hydrophilic interactionLuiz Fernando Ribeiro 17 October 2018 (has links)
Nesse trabalho de duas partes, colunas monolíticas poliméricas foram aplicadas em extração em fase sólida e em nanocromatografia capilar, duas das suas mais importantes aplicações. Na primeira parte foi desenvolvido um monolito para extração em fase sólida dos metais Cd(II), Pb(II) e Cu(II), que foi acoplada on-line com detecção eletroquímica com o auxílio de instrumentação de análise por injeção sequencial (SIA). A coluna usada como suporte sólido para extração em fase sólida foi obtida com a copolimerização entre formador de ligação cruzada etileno dimetacrilato (EDMA) e monômero funcional glicidil metacrilato (GMA), preparada a partir de uma mistura reacional composta de 30% GMA, 10% EDMA, 5% H2O, 35% n-propanol e 20% 1,4- butanodiol, aquecida durante 24 horas à 60°C. Essa composição e condições de polimerização favoreceram a permeabilidade do monolito, o que foi necessário para o acoplamento no SIA. Após a obtenção do monolito base o mesmo foi modificado pela reação do anel epóxi do grupo GMA com ácido iminodiacético (IDA) para garantir propriedades de quelação de metais e maior capacidade de adsorção para a coluna. O monolito foi caracterizado com imagens de microscopia de varredura eletrônica (MEV) e a capacidade de extração foi de 4,4 ± 0,3 mg Cu(II) m-1 obtida com curvas de breakthrough. O método de determinação on-line dos metais operado por SIA, que executou as etapas de carregamento de amostra, limpeza da coluna, eluição dos analitos e recondicionamento dos sítios ativos teve frequência amostral de 6,8 injeções por hora. Os limites de detecção (LD) e quantificação (LQ) para o método foram, respectivamente, de 1,0 e 3,3 µg L-1 para o Cd(II), 0,7 e 2,2 µg L-1 para o Pb(II) e 0,5 e 1,8 µg L-1 para o Cu(II). O método foi aplicado na determinação dos metais em diferentes matrizes de águas naturais, sendo encontrado Cu(II) em algumas amostras. A exatidão do método foi avaliada com estudos de adição e recuperação nessas águas, obtendo-se valores entre 75,5 e 116,6%. Na segunda parte do trabalho foi utilizada uma coluna polar composta da sulfobetaína zwitteriônica N,N-dimetil-N-metacriloil-oxietil-N-(3-sulfopropil) amônio betaína (MEDSA) e do formador de ligações cruzadas dioxietil dimetacrilato (DiEDMA) em Nanocromatografia de Interação Hidrofílica (HILIC) para fazer a separação de Dopamina, Epinefrina, Norepinefrina, L-DOPA, Tiramina, DOPAC e Ácido Homovanílico, neurotransmissores, alguns de seus metabólitos e precursores, compostos polares de baixa massa molecular. A seletividade cromatográfica da coluna foi altamente dependente da composição da fase móvel aquosa:orgânica, apresentando um mínimo de retenção na transição do mecanismo HILIC para a fase reversa (RP). Ajustando os dados experimentais de fatores de retenção em função da composição da fase móvel com o modelo de retenção duplo foi possível prever qual composição de fase móvel promoveria a separação dos analitos da mistura, que foi atingida em torno de 85% acetonitrila e 15% H2O. A coluna foi modificada com o grupo zwitteriônico 2-metacriloil-oxietil fosforilcolina (MPC) por UV grafting e a modificação da metade do comprimento da coluna durante 30 minutos de exposição UV levou às mudanças na seletividade cromatográfica. / In this two parts work, polymeric monolithic columns were applied in solid phase extraction and in capillary nanochromatography, two of their most important applications. In the first part, a monolith for solid phase extraction of Cd(II), Pb(II) and Cu(II) metals was developed and coupled online with electrochemical detection with the aid of sequential injection analysis instrumentation (SIA). The column used as a solid support for solid phase extraction was obtained by copolymerization between the crosslinker ethylene dimethacrylate (EDMA) and the functional monomer glycidyl methacrylate (GMA), prepared from a reaction mixture composed of 30% GMA, 10% EDMA, 5% H2O, 35% n-propanol and 20% 1,4-butanediol, heated at 60 ° C for 24 hours. This composition and polymerization conditions favored monoliths permeability, which was required for the SIA coupling. After obtaining the base monolith, it was modified by reaction of the epoxy ring of the GMA group with the iminodiacetic acid (IDA) to guarantee metals chelating properties and increase adsorption capacity for the column. The monolith was characterized by scanning electron microscopy (SEM) images and extraction capacity was 4.4 ± 0.3 mg Cu(II) m-1, obtained from breakthrough curves. The method for online determination of metals operated by SIA, which performed the steps of sample loading, column cleaning, analyte elution and reconditioning of active sites had a sampling throughput of 6.8 injections per hour. The limits of detection (LD) and quantification (LQ) for the method were, respectively, 1.0 and 3.3 µg L-1 for Cd(II), 0.7 and 2.2 µg L-1 for the Pb(II) and 0.5 and 1.8 µg L-1 for Cu(II). The method was applied for the determination of metals in different natural water matrices, finding Cu(II) in some samples. The accuracy of the method was evaluated with addition and recovery studies in these waters, finding recoveries between 75.5 and 116.6%. In the second part of the work, a polar column composed of the zwitterionic sulfobetaine N,N-dimethyl-N-methacryloyloxyethyl-N-(3-sulfopropyl) ammonium betaine (MEDSA) and the cross-linker dioxyethyl dimethacrylate (DiEDMA) was used in Hydrophilic Interaction Nanocromatography (HILIC) to separate Dopamine, Epinephrine, Norepinephrine, L-DOPA, Tyramine, DOPAC and Homovanilic Acid, neurotransmitters, some of its metabolites and precursors, which are polar compounds of low molecular mass. The chromatographic selectivity of the column was highly dependent on the composition of the aqueous:organic mobile phase, showing a minimum retention at the transition from the HILIC to the reverse phase (RP) mechanism. By adjusting the experimental data of retention factors as a function of mobile phase composition with the double retention model it was possible to predict which mobile phase composition would promote the separation of the mixed analytes, which was achieved around 85% acetonitrile and 15% H2O. The column was modified with the 2-methacryloyl oxyethyl phosphorylcholine (MPC) zwitterionic group by UV grafting and the modification of half columns length during 30 minutes of UV exposure led to changes in the chromatographic selectivity.
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Développement de méthodes analytiques basées sur la spectrométrie de masse de haute résolution pour l’étude de molécules contenant des métaux chez les organismes vivants / High resolution elemental and molecular mass spectrometry for studies of endogenous metal-containing molecules in living organismsWang, Shuanglong 25 September 2017 (has links)
Les ions métalliques (Fe, Zn, Cu, Mn, Ni, Co, Mo…) jouent un rôle vital dans un grand nombre de processus biologiques. Leur carence et leur excès entraînent des défauts de croissance voire la mort. Pour survivre et croître, certaines bactéries ont développé des stratégies pour acquérir les métaux dans leur environnement basées sur la synthèse de ligands complexant les métaux. Les plantes, elles, stockent les métaux et les transportent entre les tissus sous des formes chimiques particulières et un rôle grandissant pour les petits complexes métalliques semble se révéler. La spéciation des métaux gouvernerait donc leur biodisponibilité pour les consommateurs en ce qui concerne les plantes comestibles. Cette thèse a pour but le développement de méthodes analytiques pour l’identification et la quantification des formes chimiques des métaux chez les bactéries et les plantes.Les techniques de séparation chromatographique, comme la chromatographie d’exclusion stérique (SEC) et la chromatographie d’interaction hydrophile (HILIC), furent couplées à la spectrométrie de masse (MS) avec une ionisation préalable par plasma induit (ICP MS) ou par électrospray pour une détection élémentaire et moléculaire respectivement. La méthodologie analytique développée ici, qui est basée sur l’utilisation de l’HILIC avec détection double par ICP MS et électrospray MS, s’est avérée cruciale pour la découverte et la caractérisation de deux nouveaux métallophores, la staphylopine chez Staphylococcus aureus et la pseudopaline chez Pseudomonas aeruginosa. Ces métallophores sont synthétisés et exportés par les bactéries et servent pour l’acquisition des métaux de transition divalents dans les milieux très pauvres en métaux grâce à leur pouvoir complexant.Des techniques dédiées de préparation d’échantillons, incluant le fractionnement des extraits solubles à l’eau, furent mises en place pour l’analyse du fer dans le maïs. Les approches instrumentales développées, notamment après le fractionnement du fer l’échantillon, permirent l’identification par spectrométrie de masse de complexes du fer avec le citrate, le muginéate et le phytate dans les grains de maïs. Il existe aussi une différence significative dans les concentrations de certaines polyamines entre certaines variétés de graines contenant du fer faiblement biodisponible et celles contenant du fer fortement biodisponible. La plus grande abondance de complexe fer-muginéate dans les extraits gastro-intestinaux des variétés à fer fortement biodisponible semblerait indiqué un rôle important pour ce complexe dans la biodisponibilité du fer. Finalement, des ratios molaires plus faibles entre le phytate extrait et le fer qui lui est associé sembleraient aussi être un des facteurs lié à une plus grande biodisponibilité du fer. / Metal (Fe, Zn, Cu, Mn, Ni, Co, Mo…) ions play a vital role in a large number of biological processes. Both their deficiency and excess will lead to severe growth impairment or death. In order to survive and to grow, bacteria developed strategies to acquire metals from the environment based on the synthesis of metal complexing ligands. Plants store metals and transport them between tissues in particular chemical forms and a rising role for small metal complexes seems to be revealed. Therefore their speciation governs the bioavailability of the metals to consumers in the case of edible plants. This thesis aims at the development of analytical methods for the identification and quantification of metal chemical forms in bacteria and in plants.Chromatographic separation techniques, such as size exclusion chromatography (SEC) and hydrophilic interaction chromatography (HILIC) were coupled to mass spectrometry (MS) using ionization in an inductively coupled plasma (ICP MS) or electrospray for elemental and molecular detection, respectively. The developed analytical methodology based on HILIC with dual ICP MS and electrospray MS detection turned out to be crucial for the discovery and characterization of two novels metallophores, staphylopine in Staphylococcus aureus and pseudopaline in Pseudomonas aeruginosa. These metallophores are synthesized and exported by the bacteria and serve for the uptake of divalent transition metal in metal scarce conditions by means of chelation. Dedicated samples preparation techniques, including fractionation of water soluble extracts, were developed for iron analyses in maize. The developed instrumental approaches following the iron fractionation methods allowed the identification by mass spectrometry of citrate, mugineate and phytate complexes with iron in maize kernels. There was also a significant difference in some polyamine concentrations observed between some kernels with low and high bioavailable iron. The higher abundance of the iron-mugineate complex in the gastrointestinal extract in high bioavailable maize variety possibly indicates that iron-mugineate would have an important role in iron biodisponibility. Finally, lower molar ratios between extracted phytate and iron associated to it would seem to be also a key aspect for higher iron bioavailability.
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Résolution de mélanges complexes d'oligosaccharides sulfatés par chromatographie 2D et spectrométrie de masse : application aux héparines thérapeutiques / Resolution of complex mixtures of sulfated oligosaccharides by 2D-chromatography and mass spectrometry : application to heparin-like drugsJaffuel, Aurore 20 September 2016 (has links)
Résumé confidentiel / Résumé confidentiel
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INVESTIGATION OF PHENYLEPHRINE SULFATION AND INHIBITION USING A NOVEL HILIC ASSAY METHODShah, Heta N 01 January 2015 (has links)
Phenylephrine (PE) is the most commonly used over-the-counter nasal decongestant. The problem associated with phenylephrine is that it undergoes extensive first pass metabolism in the intestinal gut wall leading to its poor and variable oral bioavailability.
This research project aims at developing strategies in order to increase the oral bioavailability of PE by co-administration of GRAS compounds. A HILIC assay method was developed to detect the parent drug, phenylephrine (PE) and its sulfate metabolite (PES).The enzyme kinetic studies were done with phenolic dietary or GRAS compounds using LS180 human intestinal cell model, recombinant SULT enzymes and human intestinal cytosol (HIC). From the screening studies done, one inhibitor was selected in order to study the mechanism of inhibition. In conclusion the studies done in vitro provided a basis in order to predict in vivo intrinsic clearance through the sulfation pathway.
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Development of UPLC-MS/MS method for the determination of polar metabolitesNorin, Gustav January 2018 (has links)
Trimethylamine-n-oxide (TMAO) is a metabolite found in plasma/serum in humans. Elevated levels of TMAO have been associated with several types of heart disease. It’s therefore of interest to make a simple analytical method to analyse TMAO and other metabolites that are degraded to TMAO, including betaine. In this study, the goal was to develop a method for the sample preparation and analysis of these compounds in human plasma. Sample preparation was performed with an Ostro 96-well method for sample clean-up. The analysis was performed by ultraperformance liquid chromatography – hydrophilic interaction liquid chromatography – tandem masspectrometry (UPLC-HILIC-MS/MS) in multiple reaction monitoring (MRM)-mode using electrospray ionization in positive mode (ESI+)-mode as the ion source. The analytes eluted under five minutes and were all baseline separated in the chromatogram. TMAO and betaine were quantified in quality control (QC) plasma samples using external calibration. Concentration of TMAO ranged from 132 ng/mL – 253 ng/mL and 1025-2084 ng/mL for betaine. Due to the lack of isotopically labelled standards for TMAO and betaine, valine-d8 was tested as an internal standard for the extraction; however, it was not a suitable option due to the low recovery obtained (5-34%) and the low response in ESI+. The recovery needs to be investigated further using isotopically labelled TMAO or betaine. Overall, the developed UPLC-HILIC-MS/MS method was found to be suitable for analysis of TMAO and betaine in human plasma. Further development and validation is required before application to samples from clinical studies.
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Développement de nouvelles méthodes séparatives compatibles avec une détection par spectrométrie de masse et par électrochimie pour l'analyse des traces de catécholamines et molécules apparentéesChirita, Raluca-Ioana 27 November 2009 (has links) (PDF)
Les catécholamines et les indolamines font partie de la famille des neurotransmetteurs. Un déséquilibre dans leur concentration peut être associé à différentes maladies telles les maladies de Parkinson et Alzheimer, la dépression ou la schizophrénie. C'est pourquoi le développement de méthodes de dosage spécifiques et très sensibles du fait de leurs très faibles teneurs dans les fluides biologiques est nécessaire. Dans un premier temps nous avons développé une méthode chromatographique en appariement d'ions (IP-LC) utilisant des colonnes C18 de nouvelle génération (monolithique et « fused core ») et l'acide nonafluoropentanoïque, comme agent d'appariement d'ions volatil. Cette méthode est compatible avec une détection SM en mode d'ionisation positive. Dans un deuxième temps, différents systèmes en mode HILIC ont été évalués. Le choix raisonné de la phase stationnaire offrant la meilleure séparation du mélange de catécholamines a pu être réalisé après avoir testé l'influence sur la séparation des différents groupements fonctionnels disponibles : groupement soit neutre (greffage diol, amide, ou cyano), soit positivement chargé (greffage amino ou triazole) soit négativement chargé (silice vierge avec particules totalement poreuses ou partiellement poreuses « fused core ») ou zwitterionique (greffage sulfobetaïne). La méthode HILIC présente l'avantage d'être compatible aussi bien avec une détection SM en mode d'ionisation positive que négative. Les deux méthodes (IP-LC et HILIC) ont été comparées en termes de résolution, efficacité et limites de détection (LOD), linéarité et répétabilité. Les LODs obtenues sont comprises entre 1 et 100 ng.mL-1. Pour pouvoir doser des teneurs plus faibles, une méthode de pré-concentration de l'échantillon a été développée en associant 2 supports différents (Oasis HLB et PGC). La méthode optimisée SPE-CPL-MS/MS a été enfin appliquée à un extrait de cerveau de mouton.
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