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Nouvelles stratégies pour l’analyse des cyanotoxines par spectrométrie de masseRoy-Lachapelle, Audrey 04 1900 (has links)
Les cyanobactéries ont une place très importante dans les écosystèmes aquatiques et un nombre important d’espèces considéré comme nuisible de par leur production de métabolites toxiques. Ces cyanotoxines possèdent des propriétés très variées et ont souvent été associées à des épisodes d’empoisonnement. L’augmentation des épisodes d’efflorescence d’origine cyanobactériennes et le potentiel qu’ils augmentent avec les changements climatiques a renchéri l’intérêt de l’étude des cyanobactéries et de leurs toxines. Considérant la complexité chimique des cyanotoxines, le développement de méthodes de détection simples, sensibles et rapides est toujours considéré comme étant un défi analytique.
Considérant ces défis, le développement de nouvelles approches analytiques pour la détection de cyanotoxines dans l’eau et les poissons ayant été contaminés par des efflorescences cyanobactériennes nuisibles a été proposé. Une première approche consiste en l’utilisation d’une extraction sur phase solide en ligne couplée à une chromatographie liquide et à une détection en spectrométrie de masse en tandem (SPE-LC-MS/MS) permettant l’analyse de six analogues de microcystines (MC), de l’anatoxine (ANA-a) et de la cylindrospermopsine (CYN). La méthode permet une analyse simple et rapide et ainsi que la séparation chromatographique d’ANA-a et de son interférence isobare, la phénylalanine. Les limites de détection obtenues se trouvaient entre 0,01 et 0,02 μg L-1 et des concentrations retrouvées dans des eaux de lacs du Québec se trouvaient entre 0,024 et 36 μg L-1. Une deuxième méthode a permis l’analyse du b-N-méthylamino-L-alanine (BMAA), d’ANA-a, de CYN et de la saxitoxine (STX) dans les eaux de lac contaminés. L’analyse de deux isomères de conformation du BMAA a été effectuée afin d’améliorer la sélectivité de la détection. L’utilisation d’une SPE manuelle permet la purification et préconcentration des échantillons et une dérivatisation à base de chlorure de dansyle permet une chromatographie simplifiée. L’analyse effectuée par LC couplée à la spectrométrie de masse à haute résolution (HRMS) et des limites de détections ont été obtenues entre 0,007 et 0,01 µg L-1. Des échantillons réels ont été analysés avec des concentrations entre 0,01 et 0,3 µg L-1 permettant ainsi la confirmation de la présence du BMAA dans les efflorescences de cyanobactéries au Québec.
Un deuxième volet du projet consiste en l’utilisation d’une technologie d’introduction d’échantillon permettant des analyses ultra-rapides (< 15 secondes/échantillons) sans étape chromatographique, la désorption thermique à diode laser (LDTD) couplée à l’ionisation chimique à pression atmosphérique (APCI) et à la spectrométrie de masse (MS). Un premier projet consiste en l’analyse des MC totales par l’intermédiaire d’une oxydation de Lemieux permettant un bris de la molécule et obtenant une fraction commune aux multiples congénères existants des MC. Cette fraction, le MMPB, est analysée, après une extraction liquide-liquide, par LDTD-APCI-MS/MS. Une limite de détection de 0,2 µg L-1 a été obtenue et des concentrations entre 1 et 425 µg L-1 ont été trouvées dans des échantillons d’eau de lac contaminés du Québec. De plus, une analyse en parallèle avec des étalons pour divers congénères des MC a permis de suggérer la possible présence de congénères ou d’isomères non détectés. Un deuxième projet consiste en l’analyse directe d’ANA-a par LDTD-APCI-HRMS pour résoudre son interférence isobare, la phénylalanine, grâce à la détection à haute résolution. La LDTD n’offre pas de séparation chromatographique et l’utilisation de la HRMS permet de distinguer les signaux d’ANA-a de ceux de la phénylalanine. Une limite de détection de 0,2 µg L-1 a été obtenue et la méthode a été appliquée sur des échantillons réels d’eau avec un échantillon positif en ANA-a avec une concentration de 0,21 µg L-1. Finalement, à l’aide de la LDTD-APCI-HRMS, l’analyse des MC totales a été adaptée pour la chair de poisson afin de déterminer la fraction libre et liée des MC et comparer les résultats avec des analyses conventionnelles. L’utilisation d’une digestion par hydroxyde de sodium précédant l’oxydation de Lemieux suivi d’une purification par SPE a permis d’obtenir une limite de détection de 2,7 µg kg-1. Des échantillons de poissons contaminés ont été analysés, on a retrouvé des concentrations en MC totales de 2,9 et 13,2 µg kg-1 comparativement aux analyses usuelles qui avaient démontré un seul échantillon positif à 2 µg kg-1, indiquant la possible présence de MC non détectés en utilisant les méthodes conventionnelles. / Cyanobacteria have a very important place in aquatic ecosystems and a significant number of species are considered harmful given their production of toxic metabolites. These cyanotoxins have various chemical proprieties and have often been associated with poisoning episodes. The frequency of cyanobacterial blooms is increasing and the study of cyanobacteria and their toxins is of increasing interest, especially considering the potential increase associated with climate changes. Given the chemical complexity of the cyanotoxins, the development of simple, sensitive and fast detection methods is an analytical challenge.
Considering these issues, the development of new analytical approaches for the detection of cyanotoxins in water and fish samples contaminated with harmful cyanobacterial blooms have been proposed. A first approach consists of the use of an on-line solid phase extraction coupled to liquid chromatography and tandem mass spectrometry (SPE-LC-MS/MS) for the analysis of six microcystins (MCs), anatoxin-a (ANA-a) and cylindrospermopsin (CYN). This method allows a simple and rapid analysis and enables the chromatographic separation of ANA-a and its isobaric interference, phenylalanine. The detection limits ranged from 0.01 to 0.02 µg L-1 and concentrations in lake waters were found between 0.024 and 36 µg L-1. A second method consists of using manual solid phase extraction (SPE) coupled to high resolution mass spectrometry (HRMS) for the determination of b-N-methylamino-L-alanine (BMAA), ANA-a, CYN and saxitoxin (STX) in contaminated lake water. The analysis of two conformational isomers of BMAA was done to improve the selectivity. Dansyl chloride-based derivatization allows simplified chromatography. The detection limits were obtained between 0.007 and 0.01 µg L-1. The analysis of bloom water samples detected concentrations of cyanotoxins between 0.01 and 0.3 µg L-1 allowing the confirmation of the presence of BMAA in algal blooms in Québec.
A second part of the project consists in the use of an alternative sample introduction technology for MS analysis. It enables ultra-fast analysis (< 15 seconds/sample) without the use of a chromatographic step, and is called laser diode thermal desorption (LDTD) coupled with atmospheric pressure chemical ionization (APCI). The first LDTD project consists of the analysis of total MCs via Lemieux oxidation in order to obtain a common moiety of all MCs existing congeners. This fraction, the MMPB, is analyzed after a liquid-liquid extraction step, with the LDTD-APCI-MS/MS. A value of 0.2 µg L-1 was obtained for detection limit and concentrations between 1 and 425 µg L-1 have been found in contaminated water samples. In addition, a comparison with a parallel analysis using MCs congeners’ standards suggested the possible presence of undetected MCs or isomers. A second project involves the direct analysis of ANA-a using LDTD-APCI-HRMS in order to solve the isobaric interference, phenylalanine, which is possible due to the high resolution detection. The LDTD offers no chromatographic separation and by using HRMS, we can distinguish ANA-a signals from those of phenylalanine. A value of 0.2 µg L-1 was obtained as detection limit and the method has been applied on water bloom samples with a positive concentration of 0.21 µg L-1. Finally, using the LDTD-APCI-HRMS combination, analysis of total MCs has been adapted to fish tissues to determine the unbound and bound MCs and compare the results with standard analysis. The use of digestion with sodium hydroxide prior to Lemieux oxidation followed by SPE purification yielded a detection limit of 2.7 µg kg-1. Total MCs concentrations were found between 2.9 and 13.2 µg kg-1 in real field-collected contaminated fish samples and comparison was made with standard analysis which yield a single positive sample with a concentration of 2 µg kg-1. This indicates the possible presence of undetected MCs using conventional analytical methods.
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Vývoj analytických metod pro stanovení fosforylovaných složek bakteriálních buněčných membrán / Development of analytical methods for determination of phosphorylated components of bacterial cell membranesMikulecká, Jana January 2013 (has links)
Phospholipids are dominant components of bacterial cell membranes, where they create double layers. Bacteria differ in their phospholipid composition determination of which can help in identification of important groups of microorganisms. Phospholipid composition of bacteria is influenced by many environmental factors, therefore its variation can be observed within one bacterial stem also. Because of its simplicity, thin layer chromatography is usually applied to identification and determination of bacterial phospholipids. Disadvantage of this method are the high demands of time, carefulness and skills of the analytical personnel. The increasing interest in the phospholipid double-layer promotes the detailed investigation of their fatty acid composition because the more detailed analyses allows for more information yield about bacteria. Gas chromatography hyphenated with mass spectrometry seems to be the best choice for these purposes. Fatty acid identity and total fatty acid content in phospholipid molecules could be determined by this method. Additionally, number, position and isomerism of double bonds and presence of other functional groups on hydrocarbon chain could be determined. Whereas a suitable and...
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Avaliação de novos métodos para a cultura de anaeróbios / Evaluation of new methods for anaerobic bacterial culturingTsukimoto, Eliane Rodrigues 25 June 2018 (has links)
INTRODUÇÃO: As infecções por bactérias anaeróbias são geralmente de origem endógena, polimicrobianas e mistas. Devido a sua natureza fastidiosa, essas bactérias necessitam de uma prévia incubação em meios líquidos enriquecidos, como o caldo Thioglicolato (CT) para serem recuperadas, o isolamento desses microrganismos é trabalhoso e o tempo de resposta - TAT (turn around time) estendido desse exame pode estar associado a falhas terapêuticas e ao aumento da resistência bacteriana. A cultura de anaeróbios (CANA) ainda é um desafio para os laboratórios clínicos de rotina e novas estratégias para diminuir o TAT são fundamentais para que esse exame forneça um impacto clínico significativo. OBJETIVO: Otimizar o processo de triagem da CANA pela modificação do CT; comparar a identificação dos anaeróbios pelas metodologias fenotípicas ANC (Vitek 2- bioMérieux, France) e MALDI-TOF (Vitek MS - bioMérieux, France) e verificar o impacto econômico das ações propostas MÉTODOS: O caldo de triagem CT foi modificado eluindo individualmente discos comerciais de antibióticos (em concentrações fixas) selecionados por apresentarem baixa ou nenhuma ação contra microrganismos anaeróbios e com um bom espectro de ação para os principais aeróbios associados em culturas mistas e foram escolhidos aqueles que após uma bateria de testes frente a 15 cepas dos principais anaeróbios envolvidos em infecções humanas mantiveram a viabilidade inicial. O caldo Thioglicolato modificado (CTM) foi composto pela adição dos antibióticos que apresentaram a melhor \"performance\" acima descrita. A sensibilidade e especificidade do CTM foram avaliadas paralelamente com CT na rotina de CANA do HCFMUSP. Para a avaliar a identificação fenotípica, 421 anaeróbios isolados no período de seis meses foram submetidos a identificação pelo ANC (Vitek 2) e MALDI-TOF (Vitek MS). Os resultados discordantes ou com baixa discriminação da espécie foram avaliados pelo sequenciamento 16S rRNA. O impacto econômico da introdução do CTM bem como os custos diretos da identificação pelo MALDI-TOF foram avaliados. RESULTADOS: O CTM foi composto por amicacina, gentamicina e aztreonam. Das 159 amostras clínicas triadas pelo CT e CTM, 11 (7%) foram positivas para CANA com as mesmas espécies isoladas em ambos os meios. Utilizando o CTM, foi obtida uma redução dos falsos positivos de 97 (61%) para 69 (43%) quando comparado ao CT (p < 0,05). O TAT do resultado negativo da CANA com o CTM foi reduzido de 14 para sete dias em 28 (18%) amostras; o CTM permitiu a liberação do resultado positivo da CANA 48 horas à frente do CT. A sensibilidade do CTM foi igual ao CT, porém a especificidade foi superior em 19%. Das 421 cepas avaliadas, 35 foram identificadas somente pelo MALDI-TOF (Vitek MS) sendo que uma (Clostridium innocum) foi identificada somente pelo sequenciamento 16S rRNA. Das 386 avaliadas por ambas as metodologias, houve uma concordância de 97% e os resultados das 13 (3%) cepas submetidas ao sequenciamento foram concordantes em 92% com o MALDI-TOF (Vitek MS) que promoveu a redução do TAT do resultado positivo em cinco dias. A implementação do CTM possibilitou uma redução de custos nessa amostragem, de R$ 2.240,00 e a identificação pelo MALDI-TOF proporcionou uma economia de R$ 7.786,00. Considerando os valores econômicos encontrados nesse estudo e projetando-os nas estatísticas de CANA do HCFMUSP em 2017, o CTM poderia proporcionar uma economia de R$ 132.560,00 /ano e o MALDI-TOF uma redução nos gastos de R$ 13.579,00/ ano CONCLUSÕES: A padronização e implementação do CTM permitiu uma um aumento significativo de especificidade da cultura anaeróbia com redução do TAT e dos custos. A utilização do MALDI-TOF diminuiu o TAT das identificações aliado a uma melhor performance de forma custo efetiva / INTRODUCTION: Anaerobic bacterial infections are usually of endogenous origin, polymicrobial and mixed. Because of their fastidious nature, these bacteria require prior incubation in enriched liquid media, such as Thioglycolate broth (TB) to be recovered, the isolation of these microorganisms is laborious, and the TAT (turn around time) extended time of this examination may be associated with therapeutic failures and increased bacterial resistance. Anaerobic culture (AC) is still a challenge for routine clinical laboratories, and new strategies for lowering TAT are critical to provide a significant clinical impact. OBJECTIVE: To optimize the AC screening process by modifying the TB; Compare anaerobical identification between (Vitek 2- bioMérieux, France) and MALDI-TOF (Vitek MS - bioMérieux, France) and to verify the economic impact of the proposed actions. METHODS: TB broth was modified by eluting individually antibiotic commercial discs (at fixed concentrations) selected for low or no action against anaerobic microorganisms and with a good action spectrum for the main associated aerobes in mixed cultures. Those who maintained the initial viability after a battery of tests against 15 strains of the major anaerobes involved in human infections were selected. Modified Thioglycolate Broth (MTB) was composed of the antibiotics that presented the best performance described above. The sensitivity and specificity of MTB were evaluated in parallel with TB in the HCFMUSP AC routine. To evaluate the phenotypic identification, 421 anaerobes isolated in the six-month period were submitted to identification by ANC (Vitek 2) and MALDI-TOF (Vitek MS). Discordant results or those with low discrimination of the species were submitted to 16S rRNA sequencing. The economic impact of the introduction of MTB as well as the direct costs of MALDI-TOF identification were assessed. RESULTS: MTB was composed of amikacin, gentamicin and aztreonam. Of the 159 clinical samples screened by TB and MTB, 11 (7%) were positive for AC with the same species isolated in both media. Using MTB, a reduction of false positives was obtained from 97 (61%) to 69 (43%) when compared to TB (p < 0.05). The TAT of the negative result of the AC with the MTB was reduced from 14 to 7 days in 28 (18%) samples; the MTB allowed the release of the AC positive result 48 hours ahead of the TB. The sensitivity of MTB was equal to TB, but the specificity was higher in 19%. Of the 421 strains evaluated, 35 were identified only by MALDI-TOF (Vitek MS) and one (Clostridium innocum) was identified only by 16S rRNA sequencing. Of the 386 evaluated by both methodologies, there was a concordance of 97% and the results of the 13 (3%) strains submitted to the sequencing were concordant in 92% with the MALDI-TOF (Vitek MS) that promoted TAT of the positive result reduction in five days. The implementation of the MTB made possible a reduction of costs in this sampling, of US $ 677,00 and the identification by MALDI-TOF provided a saving of US $ 2354,00. Considering the economic values found in this study and projecting them in the HCFMUSP AC statistics in 2017, the MTB could provide savings of US $40,070.00 / year and MALDI-TOF a reduction in expenses of US $ 4,100.00 / year. CONCLUSIONS: Standardization and implementation of MTB allowed a significant increase of anaerobic culture specificity with TAT and costs reduction. The use of MALDI-TOF reduced the TAT of the identifications and also resulted in a better performance in a cost effective way
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Imagerie moléculaire d’empreintes digitales par spectrométrie de masse : potentiels et applications en science forensiqueLauzon, Nidia 04 1900 (has links)
No description available.
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The fate of carbon and nitrogen from an organic effluent irrigated onto soil : process studies, model development and testingBarkle, Gregory Francis January 2001 (has links)
The fate of the carbon and nitrogen in dairy farm effluent (DFE) applied onto soil was investigated through laboratory experiments and field lysimeter studies. They resulted in the development and testing of a complex carbon (C) and nitrogen (N) simulation model (CaNS-Eff) of the soil-plant-microbial system. To minimise the risk of contamination of surface waters, regulatory authorities in New Zealand promote irrigation onto land as the preferred treatment method for DFE. The allowable annual loading rates for DFE, as defined in statutory regional plans are based on annual N balance calculations, comparing N inputs to outputs from the farming system. Little information is available, however, to assess the effects that these loading rates have on the receiving environment. It is this need, to understand the fate of land-applied DFE and develop a tool to describe the process, that is addressed in this research. The microbially mediated net N mineralisation from DFE takes a central role in the turnover of DFE, as the total N in DFE is dominated by organic N. In a laboratory experiment, where DFE was applied at the standard farm loading rate of 68 kg N ha⁻¹, the net C mineralisation from the DFE was finished 13 days after application and represented 30% of the applied C, with no net N mineralisation being measured by Day 113. The soluble fraction of DFE appeared to have a microbial availability similar to that of glucose. The low and gradually changing respiration rate measured from DFE indicated a semi-continuous substrate supply to the microbial biomass, reflecting the complex nature and broad range of C compounds in DFE. The repeated application of DFE will gradually enhance the mineralisable fraction of the total soil organic N and in the long term increase net N mineralisation. To address the lack of data on the fate of faecal-N in DFE, a ¹⁵N-labelled faecal component of DFE was applied under two different water treatments onto intact soil cores with pasture growing on them. At the end of 255 days, approximately 2% of the applied faecal ¹⁵N had been leached, 11 % was in plant material, 11 % was still as effluent on the surface, and 40% remained in the soil (39% as organic N). Unmeasured gaseous losses and physical losses from the soil surface of the cores supposedly account for the remaining ¹⁵N (approximately 36%). Separate analysis of the total and ammonium nitrogen contents and ¹⁵N enrichments of the DFE and filtered sub-samples (0.5 mm, 0.2µm) showed that the faecal-N fraction was not labelled homogeneously. Due to this heterogeneity, which was exacerbated by the filtration of DFE on the soil surface, it was difficult to calculate the turnover of the total faecal-N fraction based on ¹⁵N results. By making a simplifying assumption about the enrichment of the ¹⁵N in the DFE that infiltrated the soil, the contribution from DFE-N to all plant available N fractions including soil inorganic N was estimated to have been approximately 11 % of the applied DFE-N. An initial two-year study investigating the feasibility of manipulating soil water conditions through controlled drainage to enhance denitrification from irrigated DFE was extended a further two years for this thesis project. The resulting four-year data set provided the opportunity to evaluate the sustainability of DFE application onto land, an extended data set against which to test the adequacy of CaNS-Eff, and to identify the key processes in the fate of DFE irrigated onto soil under field conditions. In the final year of DFE irrigation, 1554 kg N ha⁻¹ of DFE-N was applied onto the lysimeters, with the main removal mechanism being pasture uptake (700 kg N ha⁻¹ yr⁻¹ removed). An average of 193 kg N ha⁻¹ yr⁻¹ was leached, with 80% of this being organic N. The nitrate leaching decreased with increasing soil moisture conditions through controlled drainage. At the high DFE loading rate used, the total soil C and N, pH and the microbial biomass increased at different rates over the four years. The long-term sustainability of the application of DFE can only be maintained when the supply of inorganic N is matched by the demand of the pasture. The complex simulation model (CaNS-Eff) of the soil-plant-microbial system was developed to describe the transport and transformations of C and N components in effluents applied onto the soil. The model addresses the shortcomings in existing models and simulates the transport, adsorption and filtration of both dissolved and particulate components of an effluent. The soil matrix is divided into mobile and immobile flow domains with convective flow of solutes occurring in the mobile fraction only. Diffusion is considered to occur between the micropore and mesopore domains both between and within a soil layer, allowing dissolved material to move into the immobile zone. To select an appropriate sub-model to simulate the water fluxes within CaNS-Eff, the measured drainage volumes and water table heights from the lysimeters were compared to simulated values over four years. Two different modelling approaches were compared, a simpler water balance model, DRAINMOD, and a solution to Richards' equation, SWIM. Both models provided excellent estimation of the total amount of drainage and water table height. The greatest errors in drainage volume were associated with rain events over the summer and autumn, when antecedent soil conditions were driest. When soil water and interlayer fluxes are required at small time steps such as during infiltration under DFE-irrigation, SWIM's more mechanistic approach offered more flexibility and consequently was the sub-model selected to use within CaNS-Eff. Measured bromide leaching from the lysimeters showed that on average 18% of the bromide from an irrigation event bypassed the soil matrix and was leached in the initial drainage event. This bypass mechanism accounted for the high amount of organic N leached under DFE-irrigation onto these soils and a description of this bypass process needed to be included in CaNS-Eff. Between 80 and 90% of the N and C leached from the lysimeters was particulate (> 0.2 µm in size), demonstrating the need to describe transport of particulate material in CaNS-Eff. The filtration behaviour of four soil horizons was measured by characterising the size of C material in a DFE, applying this DFE onto intact soil cores, and collecting and analyzing the resulting leachate using the same size characterisation. After two water flushes, an average of 34% of the applied DFE-C was leached through the top 0-50 mm soil cores, with a corresponding amount of 27% being leached from the 50-150 mm soil cores. Most of the C leaching occurred during the initial DFE application onto the soil. To simulate the transport and leaching of particulate C, a sub-model was developed and parameterised that describes the movement of the effluent in terms of filtering and trapping the C within a soil horizon and then washing it out with subsequent flow events. The microbial availability of the various organic fractions within the soil system are described in CaNS-Eff by availability spectra of multiple first-order decay functions. The simulation of microbial dynamics is based on actual consumption of available C for three microbial biomass populations: heterotrophs, nitrifiers and denitrifiers. The respiration level of a population is controlled by the amount of C that is available to that population. This respiration rate can vary between low level maintenance requirements, when very little substrate is available, and higher levels when excess substrate is available to an actively growing population. The plant component is described as both above and below-ground fractions of a rye grass-clover pasture. The parameter set used in CaNS-Eff to simulate the fate of DFE irrigated onto the conventionally drained lysimeter treatments over three years with a subsequent 10 months non-irrigation period was derived from own laboratory studies, field measurements, experimental literature data and published model studies. As no systematic calibration exercise was undertaken to optimise these parameters, the parameter set should be considered as "initial best estimates" and not as a calibrated data set on which a full validation of CaNS-Eff could be based. Over the 42 months of simulation, the cumulative drainage from CaNS-Eff for the conventionally drained DFE lysimeter was always within the 95% CI of the measured value. On the basis of individual drainage bulking periods, CaNS-Eff was able to explain 92% of the variation in the measured drainage volumes. On an event basis the accuracy of the simulated water filled pore space (WFPS) was better than that of the drainage volume, with an average of 70% of the simulated WFPS values being within the 95% CI for the soil layers investigated, compared to 44% for the drainage volumes. Overall the hydrological component of CaNS-Eff, which is based on the SWIM model, could be considered as satisfactory for the purposes of predicting the soil water status and drainage volume from the conventionally drained lysimeter treatment for this study. The simulated cumulative nitrate leaching of 4.7 g NO₃-N m⁻² over the 42 months of lysimeter operation was in good agreement to the measured amount of 3.0 (± 2.7) g NO₃-N m⁻². Similarly, the total simulated ammonium leaching of 2.7g NH₄- N m⁻² was very close to the measured amount of 2.5 (± 1.35) g NH₄- N m⁻² , however the dynamics were not as close to the measured values as with the nitrate leaching. The simulated amount of organic N leached was approximately double that measured, and most of the difference originated from the simulated de-adsorption of the dissolved fraction of organic N during the l0-month period after the final DFE irrigation. The 305 g C m⁻² of simulated particulate C leached was close to the measured amount of 224 g C m⁻² over the 31 months of simulation. The dissolved C fraction was substantially over-predicted. There was good agreement in the non-adsorbed and particulate fractions of the leached C and N in DFE. However, the isothermic behaviour of the adsorbed pools indicated that a non-reversible component needed to be introduced or that the dynamics of the de-adsorption needed to be improved. Taking into account that the parameters were not calibrated but only "initial best estimates", the agreement in the dynamics and the absolute amounts between the measured and simulated values of leached C and N demonstrated that CaNS-Eff contains an adequate description of the leaching processes following DFE irrigation onto the soil. The simulated pasture N production was in reasonable agreement with the measured data. The simulated dynamics and amounts of microbial biomass in the topsoil layers were in good agreement with the measured data. This is an important result as the soil microbial biomass is the key transformation station for organic materials. Excepting the topsoil layer, the simulated total C and N dynamics were close to the measured values. The model predicted an accumulation of C and N in the topsoil layer as expected, but not measured. Although no measurements were available to compare the dynamics and amounts of the soil NO₃-N and NH₄-N, the simulated values appear realistic for an effluent treatment site and are consistent with measured pasture data. Considering the large amount of total N and C applied onto the lysimeters over the 42 months of operation (4 t ha⁻¹ of N and 42 t ha⁻¹0f C), the various forms of C and N in dissolved and particulate DFE as well as in returned pasture, and that the parameters used in the test have not been calibrated, the simulated values from CaNS-Eff compared satisfactorily to the measured data.
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Improved techniques for CE and MALDI-MS including microfluidic hyphenations foranalysis of biomoleculesJacksén, Johan January 2011 (has links)
In this thesis, improved techniques for biomolecule analysis using capillary electrophoresis (CE) and matrix-assisted laser desorption/ionization-mass spectrometry (MALDI-MS) and hyphenations between those have been presented.A pre-concentration method which is possible to apply in both techniques, has also been investigated. In this work the off-line MS mode has been used either in the form of fractionation (Paper I) or by incorporating the MALDI target in the CE separation system (Paper II).In Paper I, a protocol for CE-MALDI analysis of cyanogen bromide digested bacteriorhodopsin (BR) peptides as model integral membrane protein peptides were established. Also, an improved protocol for partially automated manufacturing of a concentration MALDI-target plate is presented. The design of the targets was suitable for the fractions from the CE. A novel technique for the integration of CE to MALDI-MS using a closed-open-closed system is presented in Paper II, where the open part is a micro canal functioning as a MALDI target window. A protein separation was obtained and detected with MALDI-MS analysis in the micro canal. A method has been developed for detection of monosaccharides originating from hydrolysis of a single wood fiber performed in a micro channel, with an incorporated electromigration pre-concentration step preceding CE analysis in Paper III. The pre-concentration showed to be highly complex due to the fact that several parameters are included that affecting each other. In Paper IV a protocol using enzymatic digestion, MALDI-TOF-MS and CE with laser induced fluorescence (LIF) detection for the investigation of the degree of substitution of fluorescein isothiocyanate (FITC) to bovine serum albumin (BSA), as a contact allergen model system for protein-hapten binding in the skin, is presented. The intention of a further CE-MALDI hyphenation has been considered during the work. In Paper V 2,6-dihydroxyacetophenone (DHAP) was investigated, showing promising MALDI-MS matrix properties for hydrophobic proteins and peptides. 2,5-dihydroxybenzoic acid (DHB) was undoubtedly the better matrix for the hydrophilic proteins, but its performance for the larger and hydrophobic peptides was not optimal. Consequently, DHAP can be used as a compliment matrix for improved analysis of hydrophobic analytes. / QC 20101214
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Improved techniques for CE-MALDI-MS off-line coupling and MALDI-MS analysis of primarily hydrophobic proteins and peptidesJacksén, Johan January 2007 (has links)
<p>Due to the hydrophobic nature of integral membrane proteins (IMP) they give rise to several difficulties concerning handling and analysis, which is not the case for the most water soluble proteins. New analysis methods are needed, where the insolubility problems of the hydrophobic proteins due to aggregation and adhesion are tackled. Those problems also affect digestion performance and equipment compatibility for the analysis.</p><p>Protocols for analysis and separation specified for IMP are presented in <b>Paper I</b> and<b> III</b>.</p><p>The instrumentation used in this work was capillary electrophoresis (CE) and matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS). Both instruments are suitable for peptide/proteins analysis.</p><p>In <b>Paper I</b>, protocols for a CE separation of bacteriorhodopsin (BR) peptides as model IMP peptides are established. Also, a partially automated manufacturing procedure of a concentration MALDI-target is presented, suitable for fractions from CE. The MS analysis detected 9 out of 10 cyanogen bromide (CNBr) digested BR peptides. A novel technique for the off-line integration of CE to MALDI-MS using a closed-open-closed system is presented in <b>Paper II</b>, where the open part is a microcanal functioning as a MALDI target window. Investigation of the microcanal electro-osmotic flow (EOF) properties and band broadening characteristics was performed. A protein separation was obtained and detected with MALDI-MS analysis in the microcanal. Different protein digestion methods were evaluated using BR in <b>Paper III</b> through MALDI-MS. Several digestion methods as well as MS media were investigated alongside different MALDI matrices. For example, matrices as the hydrophobic 2,6-dihydroxyacetophenone (DHAP) and 2-Hydroxy-3-methoxybenzoic acid (2H3MBA) or 2-Hydroxy-5-methoxybenzoic acid (2H5MBA) mixed with DHB, appeared to be promising matrices for analysis of BR.</p> / <p>Med anledning av integrala membranproteiners (IMP) hydrofoba egenskaper uppstår flera svårigheter vid hantering och analys av IMP, vilket inte är fallet för vattenlösliga proteiner. Nya analysmetoder krävs, som löser löslighetsproblemen för de hydrofoba proteinerna som tex flockning och adsorbtion. Dessa problem påverkar även klyvningsgrad och kompatibilitet med analysutrustningen.</p><p>I <b>Artikel I</b> och <b>Artikel III</b> presenteras protokoll för analys och separation specifikt för IMP. Instrumenteringen som har använts i detta arbete är kapillärelektrofores (CE) och matris-assisterad laserdesorptions-joniserings-masspektrometri (MALDI-MS). Båda instrumenten är lämpade för peptid/protein analyser.</p><p>I <b>Artikel I</b>, presenteras protokoll för en CE separation av peptider från bacteriorhodopsin (BR), som användes som modellpeptider för IMP. En delvis automatiserat tillverkningsprocedur för en koncentrerande MALDI-platta, som är anpassad för CE fraktionerna beskrivs också. MS-analysen detekterade 9 av 10 BR-peptider från cyanobromid-klyvning (CNBr). En ny teknik för off line-integrering av CE till MALDI-MS genom ett slutet-öppet-slutet system presenteras i <b>Artikel II</b>, där den öppna delen är en mikrokanal som fungerar som detektionsfönster i MALDI. Undersökning av mikrokanalens egenskaper som tex det elektroosmotiska flödet (EOF) och bandbreddningen utvärderades. En proteinseparation genomfördes och detekterades med MALDI–MS i mikrokanalen. Olika proteinklyvningsmetoder för BR undersöktes i <b>Artikel</b> <b>III</b> med MALDI-MS. Flera proteinklyvningsmetoder samt MS-medier utvärderades tillsammans med olika MALDI-matriser. Den hydrofoba matrisen 2,6-dihydroxyacetophenone (DHAP) och 2-Hydroxy-3-methoxybenzoic acid (2H3MBA) eller 2-Hydroxy-5-methoxybenzoic acid (2H5MBA) blandade med DHB, visade sig exempelvis vara lovande matriser för BR-analyser.</p>
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Präzisionsmassebestimmung einzelner Partikel im Femtogrammbereich und Anwendungen in der OberflächenphysikIllemann, Jens 03 August 2000 (has links) (PDF)
In this work, a new method for mass determination of single low-charged particles in the sub-picogram regime is developed. It opens applications to chemical physics and surface science via determination of growth rates. The method combines the well-known electrodynamic quadrupole ion trap in a UHV-chamber and fourier transformation of scattered light. The achieved mass resolution of down to $10^{-4}$ at 100 fg mass on a time scale of ten seconds allows a resolution of a few percent of the mass of an adsorbed monolayer and to determine growth rates down to one molecule per second on a time scale of one day. The observation of temperature dependent sticking coefficients results in the measures of the energy of an adsorption barrier. Observation of discrete steps in the rate gives information about the density of molecules in an ordered layer. Temperature dependent desorption data gives the binding energy. The dependence of these observables on the controllable curvature and charge of the substrate's surface is measurable.
The first part of this dissertation consists of a description of the common theory of the quadrupole ion trap with the completion of not widely known, newly introduced, contributions to the trapping potential. These contributions lead to systematic shifts in the mass determination. In particular the influence of the inhomogenity of the electrical field, that is used for compensating the gravitational force, is investigated analytically and corroborated experimentally. It is assumed, that the particle's finite size effects in a further shift.
In the experimental part initial demonstrative measurements are presented: the time-resolved adsorption of fullerene, anthracene and NO on silica spheres with 500nm diameter has been measured at room temperature. In addition the secondary electron yield of in-situ prepared particles during irradiation with monoenergetic electrons has been determined by analyzing the distribution of change of the number of elementary charges by single events of charging.
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リチウム膜による水素の選択排気法の開発菅井, 秀郎, 豊田, 浩孝, 中村, 圭二 03 1900 (has links)
科学研究費補助金 研究種目:基盤研究(A)(2) 課題番号:07558177 研究代表者:菅井 秀郎 研究期間:1995-1997年度
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Avaliação de novos métodos para a cultura de anaeróbios / Evaluation of new methods for anaerobic bacterial culturingEliane Rodrigues Tsukimoto 25 June 2018 (has links)
INTRODUÇÃO: As infecções por bactérias anaeróbias são geralmente de origem endógena, polimicrobianas e mistas. Devido a sua natureza fastidiosa, essas bactérias necessitam de uma prévia incubação em meios líquidos enriquecidos, como o caldo Thioglicolato (CT) para serem recuperadas, o isolamento desses microrganismos é trabalhoso e o tempo de resposta - TAT (turn around time) estendido desse exame pode estar associado a falhas terapêuticas e ao aumento da resistência bacteriana. A cultura de anaeróbios (CANA) ainda é um desafio para os laboratórios clínicos de rotina e novas estratégias para diminuir o TAT são fundamentais para que esse exame forneça um impacto clínico significativo. OBJETIVO: Otimizar o processo de triagem da CANA pela modificação do CT; comparar a identificação dos anaeróbios pelas metodologias fenotípicas ANC (Vitek 2- bioMérieux, France) e MALDI-TOF (Vitek MS - bioMérieux, France) e verificar o impacto econômico das ações propostas MÉTODOS: O caldo de triagem CT foi modificado eluindo individualmente discos comerciais de antibióticos (em concentrações fixas) selecionados por apresentarem baixa ou nenhuma ação contra microrganismos anaeróbios e com um bom espectro de ação para os principais aeróbios associados em culturas mistas e foram escolhidos aqueles que após uma bateria de testes frente a 15 cepas dos principais anaeróbios envolvidos em infecções humanas mantiveram a viabilidade inicial. O caldo Thioglicolato modificado (CTM) foi composto pela adição dos antibióticos que apresentaram a melhor \"performance\" acima descrita. A sensibilidade e especificidade do CTM foram avaliadas paralelamente com CT na rotina de CANA do HCFMUSP. Para a avaliar a identificação fenotípica, 421 anaeróbios isolados no período de seis meses foram submetidos a identificação pelo ANC (Vitek 2) e MALDI-TOF (Vitek MS). Os resultados discordantes ou com baixa discriminação da espécie foram avaliados pelo sequenciamento 16S rRNA. O impacto econômico da introdução do CTM bem como os custos diretos da identificação pelo MALDI-TOF foram avaliados. RESULTADOS: O CTM foi composto por amicacina, gentamicina e aztreonam. Das 159 amostras clínicas triadas pelo CT e CTM, 11 (7%) foram positivas para CANA com as mesmas espécies isoladas em ambos os meios. Utilizando o CTM, foi obtida uma redução dos falsos positivos de 97 (61%) para 69 (43%) quando comparado ao CT (p < 0,05). O TAT do resultado negativo da CANA com o CTM foi reduzido de 14 para sete dias em 28 (18%) amostras; o CTM permitiu a liberação do resultado positivo da CANA 48 horas à frente do CT. A sensibilidade do CTM foi igual ao CT, porém a especificidade foi superior em 19%. Das 421 cepas avaliadas, 35 foram identificadas somente pelo MALDI-TOF (Vitek MS) sendo que uma (Clostridium innocum) foi identificada somente pelo sequenciamento 16S rRNA. Das 386 avaliadas por ambas as metodologias, houve uma concordância de 97% e os resultados das 13 (3%) cepas submetidas ao sequenciamento foram concordantes em 92% com o MALDI-TOF (Vitek MS) que promoveu a redução do TAT do resultado positivo em cinco dias. A implementação do CTM possibilitou uma redução de custos nessa amostragem, de R$ 2.240,00 e a identificação pelo MALDI-TOF proporcionou uma economia de R$ 7.786,00. Considerando os valores econômicos encontrados nesse estudo e projetando-os nas estatísticas de CANA do HCFMUSP em 2017, o CTM poderia proporcionar uma economia de R$ 132.560,00 /ano e o MALDI-TOF uma redução nos gastos de R$ 13.579,00/ ano CONCLUSÕES: A padronização e implementação do CTM permitiu uma um aumento significativo de especificidade da cultura anaeróbia com redução do TAT e dos custos. A utilização do MALDI-TOF diminuiu o TAT das identificações aliado a uma melhor performance de forma custo efetiva / INTRODUCTION: Anaerobic bacterial infections are usually of endogenous origin, polymicrobial and mixed. Because of their fastidious nature, these bacteria require prior incubation in enriched liquid media, such as Thioglycolate broth (TB) to be recovered, the isolation of these microorganisms is laborious, and the TAT (turn around time) extended time of this examination may be associated with therapeutic failures and increased bacterial resistance. Anaerobic culture (AC) is still a challenge for routine clinical laboratories, and new strategies for lowering TAT are critical to provide a significant clinical impact. OBJECTIVE: To optimize the AC screening process by modifying the TB; Compare anaerobical identification between (Vitek 2- bioMérieux, France) and MALDI-TOF (Vitek MS - bioMérieux, France) and to verify the economic impact of the proposed actions. METHODS: TB broth was modified by eluting individually antibiotic commercial discs (at fixed concentrations) selected for low or no action against anaerobic microorganisms and with a good action spectrum for the main associated aerobes in mixed cultures. Those who maintained the initial viability after a battery of tests against 15 strains of the major anaerobes involved in human infections were selected. Modified Thioglycolate Broth (MTB) was composed of the antibiotics that presented the best performance described above. The sensitivity and specificity of MTB were evaluated in parallel with TB in the HCFMUSP AC routine. To evaluate the phenotypic identification, 421 anaerobes isolated in the six-month period were submitted to identification by ANC (Vitek 2) and MALDI-TOF (Vitek MS). Discordant results or those with low discrimination of the species were submitted to 16S rRNA sequencing. The economic impact of the introduction of MTB as well as the direct costs of MALDI-TOF identification were assessed. RESULTS: MTB was composed of amikacin, gentamicin and aztreonam. Of the 159 clinical samples screened by TB and MTB, 11 (7%) were positive for AC with the same species isolated in both media. Using MTB, a reduction of false positives was obtained from 97 (61%) to 69 (43%) when compared to TB (p < 0.05). The TAT of the negative result of the AC with the MTB was reduced from 14 to 7 days in 28 (18%) samples; the MTB allowed the release of the AC positive result 48 hours ahead of the TB. The sensitivity of MTB was equal to TB, but the specificity was higher in 19%. Of the 421 strains evaluated, 35 were identified only by MALDI-TOF (Vitek MS) and one (Clostridium innocum) was identified only by 16S rRNA sequencing. Of the 386 evaluated by both methodologies, there was a concordance of 97% and the results of the 13 (3%) strains submitted to the sequencing were concordant in 92% with the MALDI-TOF (Vitek MS) that promoted TAT of the positive result reduction in five days. The implementation of the MTB made possible a reduction of costs in this sampling, of US $ 677,00 and the identification by MALDI-TOF provided a saving of US $ 2354,00. Considering the economic values found in this study and projecting them in the HCFMUSP AC statistics in 2017, the MTB could provide savings of US $40,070.00 / year and MALDI-TOF a reduction in expenses of US $ 4,100.00 / year. CONCLUSIONS: Standardization and implementation of MTB allowed a significant increase of anaerobic culture specificity with TAT and costs reduction. The use of MALDI-TOF reduced the TAT of the identifications and also resulted in a better performance in a cost effective way
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