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11	Développement de méthodes bidimensionnelles en ligne LCxLC-UV/MS et LCxSFC-UV pour l’analyse de composés pharmaceutiques / Development of on-line two-dimensional LCxLC-UV/MS and LCxSFC-UV methods for the analysis of pharmaceutical samples Iguiniz, Marion 17 October 2018 (has links) La chromatographie en phase liquide bidimensionnelle est une technique à fort potentiel, offrant un grand pouvoir de séparation. Après avoir démontré son intérêt dans l’industrie pharmaceutique et présenté les enjeux liés à l’analyse quantitative, une attention particulière est portée sur le développement de méthodes. Dans l’idée de développer une stratégie d’analyse générique, la première étape est de sélectionner un set de trois systèmes 2D par le biais d’une approche développée au laboratoire. La deuxième étape est d’évaluer le potentiel de ces systèmes pour l’analyse quantitative. Ces deux étapes ont conduit à la proposition d’une stratégie d’analyse applicable à l’analyse pharmaceutique dans un contexte industriel. Enfin le potentiel du couplage RPLCxSFC est envisagé dans deux cas de figure différents. Premièrement, dans le but de comparer ce couplage aux séparations RPLCxRPLC développées dans le cadre d’une stratégie analytique générique, en termes de pouvoir de séparation. Deuxièmement, dans le cadre de l’analyse de composés chiraux, en développant un couplage sRPLCxSFC permettant une analyse achirale/chirale simultanée. Les avantages d’une telle approche ont été mis en avant en la comparant aux approches conventionnelles / Two-dimensional liquid chromatography (2D-LC) is a powerful technique considering its high separation power. After showing the advantage of 2D-LC in the pharmaceutical area and presenting the challenges related to quantitative analysis, special attention was paid to method development. With the aim of developing a generic analytical strategy for pharmaceuticals, the first step of our approach consisted in selecting a set of three 2D-systems with the help of a methodology previously developed. In a second step, the potential of these 2D-systems was evaluated for the purpose of quantitative analysis. An analytical strategy able to be applied to pharmaceutical analysis in an industrial context was proposed. Finally, the potential of RPLCxSFC was investigated in two different cases. Firstly, for comparing this on-line two dimensional technique to on-line RPLCxRPLC with respect of the separation power. Secondly, for chiral compounds by developing a selective RPLCxSFC method for simultaneous achiral-chiral analysis. The advantage of such method was highlighted by comparing to conventional approaches RPLC SFC Composés pharmaceutiques Analyse chirale RPLC SFC Pharmaceutical compounds Chiral analysis 540
12	Optimisation de méthodes bidimensionnelles en ligne LCxLC-UV/MS et LCxSFC-UV pour l’analyse d’échantillons complexes / Optimization of on-line two-dimensional LCxLC-UV/MS and LCxSFC-UV methods for the analysis of complex matrices Sarrut, Morgan 17 October 2016 (has links) La chromatographie en phase liquide bidimensionnelle « comprehensive » en ligne (LCxLC) est une technique à très haut pouvoir de séparation. Après avoir établi son intérêt mais aussi les enjeux liés au développement de méthodes et les conditions expérimentales utilisées, une attention particulière est portée à l'optimisation des méthodes en LCxLC. Une procédure d'optimisation basée une méthode « Pareto-optimal » est décrite. Les conditions optimales prédites sont ensuite appliquées à la séparation RPLCxRPLC d'un mélange complexe de peptides et comparée avec la 1D-RPLC en termes de capacité de pics, temps d'analyse et facteur de dilution démontrant l'avantage fournit par la RPLCxRPLC. L'optimisation d'une méthode HICxRPLC-UV/MS en ligne permettant la caractérisation exhaustive d'un anticorps conjugué est réalisée soulignant, entre autres, la grande complémentarité entre les différents modes de détection employés en 1D et 2D.Enfin, la possibilité de développer un couplage RPLCxSFC est explorée dans le but d'augmenter l'espace de séparation pour des composés neutres. La méthode RPLCxSFC optimisée est comparée avec une séparation RPLCxRPLC optimisée pour l'analyse d'une bio-huile montrant qu'elle peut-être considérée comme une alternative crédible pour la séparation de tels échantillons / Comprehensive two-dimensional liquid chromatography is a powerful but complex separative technique. After detailing the interest of such a technique, the method development issues and the experimental conditions employed throughout this work, a particular attention is paid to the optimization of LCxLC methods. Accordingly an optimization procedure based on Pareto-optimal method is described. The predicted optimal conditions are then applied to experimental RPLCxRPLC separations of complex samples of peptides and compared with 1D-RPLC in terms of peak capacity, analysis time and sensitivity clearly showing the advantage of RPLCxRPLC approach.The optimization of a HICxRPLC-UV/MS method for the exhaustive characterization of an antibody-drug conjugate is achieved highlighting the high complementarity of the different detection modes used both in 1D and 2D. Finally, a proof of concept concerning the implementation of RPLCxSFC coupling is achieved with the aim of increasing the separation space coverage for neutral compounds. The optimized RPLCxSFC separation is then compared with an optimized RPLCxRPLC approach for the analysis of a bio-oil sample showing that RPLCxSFC is a credible alternative for the separation of such a sample LCxLC en ligne Peptides Anticorps conjugués (ADC) Biomolécules SFC RPLC HIC Spectrométrie de masse On-line LCxLC Peptides Antibody-drug conjugates (ADC) Biomolécules SFC RPLC HIC Mass spectrometry 543
13	A collaborative architecture against DDOS attacks for cloud computing systems. / Uma arquitetura colaborativa contra ataques distribuídos de negação de serviço para sistemas de computação em nuvem. Almeida, Thiago Rodrigues Meira de 14 December 2018 (has links) Distributed attacks, such as Distributed Denial of Service (DDoS) ones, require not only the deployment of standalone security mechanisms responsible for monitoring a limited portion of the network, but also distributed mechanisms which are able to jointly detect and mitigate the attack before the complete exhaustion of network resources. This need led to the proposal of several collaborative security mechanisms, covering different phases of the attack mitigation: from its detection to the relief of the system after the attack subsides. It is expected that such mechanisms enable the collaboration among security nodes through the distributed enforcement of security policies, either by installing security rules (e.g., for packet filtering) and/or by provisioning new specialized security nodes on the network. Albeit promising, existing proposals that distribute security tasks among collaborative nodes usually do not consider an optimal allocation of computational resources. As a result, their operation may result in a poor Quality of Service for legitimate packet flows during the mitigation of a DDoS attack. Aiming to tackle this issue, this work proposes a collaborative solution against DDoS attacks with two main goals: (1) ensure an optimal use of resources already available in the attack\'s datapath in a proactive way, and (2) optimize the placement of security tasks among the collaborating security nodes. Regardless the characteristics of each main goal, legitimate traffic must be preserved as packet loss is reduced as much as possible. / Sem resumo Cloud computing Computação em nuvem DDOS SDN Security Segurança de redes SFC
14	A collaborative architecture agianst DDOS attacks for cloud computing systems. / Uma arquitetura colaborativa contra ataques distribuídos de negação de serviço para sistemas de computação em nuvem. Thiago Rodrigues Meira de Almeida 14 December 2018 (has links) Distributed attacks, such as Distributed Denial of Service (DDoS) ones, require not only the deployment of standalone security mechanisms responsible for monitoring a limited portion of the network, but also distributed mechanisms which are able to jointly detect and mitigate the attack before the complete exhaustion of network resources. This need led to the proposal of several collaborative security mechanisms, covering different phases of the attack mitigation: from its detection to the relief of the system after the attack subsides. It is expected that such mechanisms enable the collaboration among security nodes through the distributed enforcement of security policies, either by installing security rules (e.g., for packet filtering) and/or by provisioning new specialized security nodes on the network. Albeit promising, existing proposals that distribute security tasks among collaborative nodes usually do not consider an optimal allocation of computational resources. As a result, their operation may result in a poor Quality of Service for legitimate packet flows during the mitigation of a DDoS attack. Aiming to tackle this issue, this work proposes a collaborative solution against DDoS attacks with two main goals: (1) ensure an optimal use of resources already available in the attack\'s datapath in a proactive way, and (2) optimize the placement of security tasks among the collaborating security nodes. Regardless the characteristics of each main goal, legitimate traffic must be preserved as packet loss is reduced as much as possible. / Sem resumo Computação em nuvem Segurança de redes Cloud computing DDOS SDN Security SFC
15	Surveillance des systèmes à événements discrets commandés: Conception et implémentation en utilisant l'automate programmable industriel Allahham, Adib 22 October 2008 (has links) (PDF) Ce mémoire de thèse prèsente une approche pour la surveillance des systèmes à événements discrets commandés. L'étude se restreint aux défauts interruptibles : intermittents et permanents. Le comportement acceptable de ces systèmes est introduit afin d'accroître la disponibilité des systèmes commandés. Ce comportement présente une tolérance aux défauts intermittents. Une démarche de construction du système de surveillance est présentée. Nous modélisons, dans un premier temps, le comportement du système sujet aux défauts interruptibles par un automateà chronomètres. Nous appliquons, dans un deuxième temps, une procédure de synthèse à cet automate. Cette procédure est basée aux opérateurs d'analyse en avant et en arriérer de l'automate. Un nouveau modèle appelé réseaux de Petri à chronomètres post- et Pré-initialisés est également présenté. Ce modèle général du RdP a été utilisé, dans le cadre de ce mémoire, pour modéliser le comportement des systèmes sujets aux défauts interruptibles. L'implémentation de notre méthode de surveillance se fait par un automate programmable industriel. Pour ce faire, le système de surveillance étant sous la forme d'un automate àchronomètres est traduit structurellement en programme SFC. [PHYS] Physics Systèmes à événements discrets Surveillance automate à chronomètres Analyse d'atteignabilité Réseaux de Petri temporels SFC
16	Eco-valorisation de la plante Kniphofia uvaria : de la plante à la galénique / Eco-valuation of the Kniphofia uvaria plant : from the plant to the galenic form Duval, Johanna 14 November 2016 (has links) À l’heure où l’intégration des enjeux environnementaux dans le développement de procédés éco-efficients joue un rôle essentiel dans le moteur de l’innovation responsable, la chimie verte est devenue l’un des sujets de préoccupation majeure. Ainsi, le développement de nouveaux procédés éco-respectueux pour la production d’ingrédients naturels issus de matières premières végétales renouvelables est devenu une démarche incontournable dans le modèle de recherche. L’objectif de cette thèse a consisté au développement d’une stratégie d’éco-valorisation innovante employant les fluides sub/supercritiques pour l’extraction, la caractérisation, la production et l’imprégnation sur support cosmétique de produits naturels d’origine végétale. Pour cela, nous avons utilisé comme modèle végétal : les graines oléagineuses de la plante Kniphofia uvaria, sélectionnée pour des applications cosmétiques grâce à ses propriétés bioactives antioxydantes et anti-âge. Dans un premier temps, le développement de méthodes complémentaires en SFC ainsi que le développement du couplage SFC-MS a été réalisé à l’aide de la source APCI afin d’identifier les molécules responsables des activités bioactives des graines de Kniphofia uvaria. Ainsi, le développement d’un système hybride (U)HPLC/SFC-HRMS a été réalisé afin de mettre en place ce couplage. Des optimisations en termes de proportion et nature de solvant make-up ainsi qu’un travail au niveau des paramètres SFC et MS ont été faits afin de d’améliorer la sensibilité et la spécificité des analyses lipidiques. Dans un second temps, nous nous sommes attachés au développement d’une stratégie d’enrichissement en composés bioactifs à l’aide des méthodes : SFE et CPC. Ainsi, en SFE, des optimisations en termes de température, pression, nature/proportions de co-solvant dans le fluide ont été réalisées alors qu’en CPC, des optimisations au niveau de l’injection ont été faites. Des conditions optimales pour le fractionnement sélectif des anthraquinones et des triglycérides ont été déterminées en SFE et CPC. Dans un dernier temps, ce travail a consisté à développer un couplage en-ligne pour extraire et imprégner sélectivement sur silice cosmétique : les anthraquinones. Le développement et l’optimisation de ce procédé en-ligne ont été réalisés à l’échelle du laboratoire et ont démontré la faisabilité de ce couplage ainsi qu’un intérêt certain pour l’obtention de produits naturels sous une première forme galénique, destinée à une future incorporation dans la formulation de cosmétiques. / Nowadays, green chemistry is a great challenge. It seeks innovation in the development of eco-efficient processes. The production of natural products from renewable materials by these new environmentally friendly processes is more and more used. The aim of this Ph.D thesis is to develop an eco-valuation strategy to extract, characterize, produce and impregnate natural products onto a cosmetic support using sub/supercritical fluids. Consequently, we used oleaginous plant seeds from Kniphofia uvaria as a plant model, which was selected for its interesting cosmetic properties such as antioxidant or anti-ageing. Firstly, the SFC-MS hyphenation with the APCI as an ionization source was developed to screen bioactive molecules; responsible of cosmetic properties. This coupling was performed by the hybrid combination of (U)HPLC/SFC-HRMS. Various optimizations in terms of the solvent make-up (nature and proportion), modulation with SFC and MS parameters were carried out in order to improve sensitivity and selectivity of lipid analysis. Secondly, an enrichment strategy to concentrate bioactive compounds in the final extract was developed by SFE and CPC. Thus, in SFE, experimental parameters (temperature, pressure, nature/proportion of the modifier in the CO2 fluid) were optimized while in CPC, the injection optimization was realized. Methods for the selective fractionation of anthraquinones and triglycerides were obtained in CPC and SFE. Finally, an on-line sub/supercritical extraction-impregnation process was developed to extract and for simultaneously impregnating anthraquinones onto a cosmetic silica. Development and optimization of this process was realized on a laboratory scale. Consequently, this study demonstrated the feasibility of this concept and it presents a great interest to provide natural products as a galenic form, which could be used in the cosmetic formulation. CO₂ Fluide sub/supercritique SFC SFC-MS Matrice végétale Anthraquinones Lipides HRMS SFE Enrichissement sélectif Huile végétale APCI CPC Imprégnation sub/supercritique SFE-SSI CO₂ Sub/supercritical fluid SFC SFC-MS Vegetable matrix Anthraquinones Lipids HRMS SFE Selective enrichment Vegetable oil APCI CPC Sub/supercritical Impregnation SFE-SSI 572.2
17	Hyphenated fourier transform infrared spectrometry: techniques for separations and analysis Jordan, Sheri Lynne 28 August 2003 (has links) The following work describes the instrumentation and application of hyphenated FT-IR techniques specifically involving supercritical fluid extraction (SFE), supercritical fluid chromatography (SFC), and liquid chromatography (LC). Three studies are presented. The first involves the application of SFE/FT-IR towards the extraction of finishes from textile fibers. SFE has previously been applied to less complex finish systems. The proposed method making use of intermediate trapping is viable for more complex systems that show limited solubility in a supercritical fluid. Quantification of the percent finish on yarn was performed and results were favorable when compared with plant data. The range of applications was expanded to on-line SFE/SFC in the extraction and analysis of components from the polymer matrix itself. SFE/SFC/FT-IR was used to identify extractable components from a variety of Nylons. Following identification of one of the primary extractables, caprolactam, SFE/SFC was used to quantitate the amount of residual starting material in a Nylon copolymer. The second study involves the extractables in polystyrene which is a softer polymer with respect to solubility of components in supercritical CO ₂. Dimers and trimers as well as processing agents were identified via FT-IR with relatively mild supercritical extraction conditions. Following these two studies was the expansion of hyphenated FT -IR to mobile phase elimination. A system optimization was carried out using polymer additive standards. The effects of nebulizer flow, sheath flow, and sheath temperature were shown. The data were analyzed at in terms of library matches as well as GramSchmidt reconstruction peak heights. Peak intensities were the primary source for choosing optimum conditions. Under optimized conditions, approximately 200 ng of analyte were analyzed and found to be above the limit of detection. The applicability of the interface was demonstrated by the identification/analysis of triclosan, an antibacterial agent, in Colgate toothpaste. Aside from the identification of the analyte this study was used to show the effect of deposition parameters such as disk rotation rate as well as the effectiveness of FT-IR spectral library searches. The analysis of triglycerides was also carried out to show the effectiveness of using LC/FTIR for viscous liquids which are difficult analytes to deposit onto a solid substrate. Using this FT-IR technique allowed one to look at the degree of saturation/unsaturation in an olive oil sample. The linearity of the method was shown using a set of triglyceride standards. Lastly, the feasibility of using the commercially manufactured mobile phase elimination interface for SFC was demonstrated. Additive standard was deposited using both pure and methanol modified CO₂. No effluent split mechanism was used for decompressed flows up to 150 mL/min. Detection limits are proposed to fall in the low (10 - 25) ng range. The infrared spectra are enhanced over those acquired with a flow cell interface because CO₂ absorbance bands no longer obscure a portion of the analyte absorption spectrum. / Ph. D. Supercritical Fluids FT-IR Hyphenated Techniques SFE SFC LD5655.V856 1995.J673
18	Analysis of Ethoxyquin and its Oxidation Products using Supercritical Fluid Extraction and High Performance Liquid Chromatography with Chemiluminescent Nitrogen Detection Brannegan, Daniel Robert 31 March 2000 (has links) Ethoxyquin is an antioxidant commonly used to preserve vitamins and lipids in various food products and animal feeds. The extraction and determination of ethoxyquin is becoming increasingly important as products, which are labeled as "natural" are becoming more common. The present method of determination only ensures that ethoxyquin values are below 10-20 parts per million. Therefore, advances are needed in methods of extraction and analysis in order to lower the detection limits in various products. The first part of this research investigates the use of supercritical fluids in the extraction of ethoxyquin from lean beef and beef fat. Supercritical fluids offer the advantages of safety, time, expense, and selectivity over liquid extractions. Three fluids were examined: carbon dioxide, trifluoromethane, and 1,1,1,2-tetrafluoroethane. Carbon dioxide appeared to react with ethoxyquin during the extraction. Methanol modified hydrofluorocarbons provided more complete extractions over pure hydrofluorocarbon fluids. Methanol modified 1,1,1,2-tetrafluoroethane was used in the extraction of ethoxyquin from lean beef and beef fat, and provided a quantitative extraction at the 0.5 ppm level. The second part of this research centered on the separation and quantitation of the oxidation products of ethoxyquin through the use of high pressure liquid chromatography with chemiluminescence nitrogen detection (HPLC/CLND). When ethoxyquin is oxidized, the resulting products also exhibit antioxidative properties. While these oxidation products are known, no effort has been made to separate and quantify them in real or clean samples. HPLC/CLND allows all nitrogen containing compounds to be quantified without a known standard. This method is of extreme interest in the case of ethoxyquin oxidation products, or other types of metabolites, where standards are difficult to obtain or are unstable. HPLC/CLND allowed a separation of ethoxyquin and four of its oxidation products to be detected, thus making future studies of the antioxidant behavior of ethoxyquin feasible. / Master of Science Oxidation SFC Extraction Ethoxyquin Chromatography GC/MS Supercritical HPLC/CLND Beef HPLC Beef Fat
19	Photodegradation study of 3,5-diamino-6-chloro- N-(2-(methylamino)ethyl)pyrazine-2-carboxamide using preparative SFC and LC-MS Sillén, Sara January 2016 (has links) In this project the photodegradation of 3,5-diamino-6-chloro-N-(2-(methylamino)ethyl)pyrazine-2-carboxamide was studied. A hypothetical degradation pattern for the compound was proposed and the aim of the project was to study the formed secondary photodegradants and to, if possible, structure elucidate some of these compounds. In order to do this, the parent compound was photodegraded in two steps, where a primary photodegradant was isolated using semi-preparative supercritical fluid chromatography (SFC) and then further degraded into the secondary photodegradants. The photodegradation was first carried out in aqueous solution, where the parent compound was irradiated in UV-A light of 300-400 nm. This resulted in a primary photodegradant with a molecular ion of m/z = 227, where the chloride in position 6 of the pyrazine group had been replaced by a hydroxyl group. During the large scale photodegradation, prior to the preparative purification, the yield of primary photodegradant was very low due to the photodegradation being dependent on both sample volume and concentration and due to the primary photodegradant also being unstable in aqueous solution at room temperature. Due to the above mentioned difficulties the parent compound was photodegraded in methanol instead of water in order to avoid the freeze-drying process where a lot of the primary photodegradant was lost. This resulted in a primary photodegradant with a molecular ion of m/z = 241, where the chloride had been replaced by a methoxy group instead of a hydroxyl group. This compound was more stable which allowed workup by rotary evaporation, instead of freeze-drying, before the preparative purification. This primary photodegradant was isolated using semi-preparative SFC on a Viridis® BEH Prep OBD TM column (250 x 30 mm, 5 µm) and a Luna HILIC column (250 x 30 mm, 5 µm) with MeOH/NH3 100/1 v/v as organic modifier. About 1.2 mg material was isolated and further photodegradation tests in ordinary water and 18O-water were conducted. Some secondary photodegradants were observed in LC-MS analyses, and their element compositions were proposed by accurate mass results. Fundamental structures for these compounds were proposed. Further structural investigational analyses are needed for confirmation in the future. photodegradation UPLC SFC liquid chromatography supercritical fluid chromatography mass spectrometry freeze drying 18O-water analytical chemistry structure elucidation photodegradants
20	SFC path tracer : a troubleshooting tool for service function chaining Eichelberger, Rafael Anton 15 March 2017 (has links) Submitted by PPG Ci?ncia da Computa??o (ppgcc@pucrs.br) on 2017-11-24T20:01:50Z No. of bitstreams: 1 Rafael_Anton_Eichelberger_dis.pdf: 5090662 bytes, checksum: 0c27686648c0e4c286c555a921034507 (MD5) / Approved for entry into archive by Caroline Xavier (caroline.xavier@pucrs.br) on 2017-12-04T11:49:36Z (GMT) No. of bitstreams: 1 Rafael_Anton_Eichelberger_dis.pdf: 5090662 bytes, checksum: 0c27686648c0e4c286c555a921034507 (MD5) / Made available in DSpace on 2017-12-04T11:53:53Z (GMT). No. of bitstreams: 1 Rafael_Anton_Eichelberger_dis.pdf: 5090662 bytes, checksum: 0c27686648c0e4c286c555a921034507 (MD5) Previous issue date: 2017-03-15 / Service Function Chaining (SFC) ? um importante campo de pesquisa na ?rea de redes de computadores, com v?rias propostas de diferentes m?todos de encapsulamento e encaminhamento de pacotes. Os m?todos de encaminhamento de pacotes usados para implementar SFC podem inviabilizar o uso de ferramentas tradicionais de depura??o de rede, o que dificulta a detec??o de erros de configura??o ou poss?veis degrada??es de desempenho em ambientes SFC. Este trabalho apresenta o SFC Path Tracer, uma ferramenta para detec??o de problemas no dom?nio SFC em ambientes NFV/SDN. Essa ferramenta permite a identifica??o de problemas no dom?nio SFC, atrav?s da gera??o de trace de pacotes e medi??o de atrasos intra-hop a partir de um SFC Path espec?fico. SFC Path Tracer ? agn?stico em rela??o aos mecanismos de encapsulamento e encaminhamento usados para implementar SFC, sendo eficaz na detec??o de grande parte dos problemas em um ambiente SFC. / Service Function Chaining (SFC) is an important research field in networking area with many encapsulation and forwarding mechanisms being proposed. To implement SFC, non-standard forwarding methods are used which break the mechanism of regular network troubleshooting tools, challenging the detection of SFC misconfiguration or performance degradation. This work presents the SFC Path Tracer, a tool for roubleshooting SFC in NFV/SDN environments. This tool enables the identification of problems in the SFC environment by generating packet trace and computing intra-hop delays from a specific SFC path. SFC Path Tracer is agnostic regarding the SFC encapsulation and forwarding mechanisms being effective to detect most problems in an SFC environment. Service Function Chaining SFC NFV SDN Networking Encadeamento de fun??es de rede Rede de Computadores

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