Global ETD Search

11	Laser Induced Incandescence and Laser Induced Breakdown Spectroscopy based Sensor Development Eseller, Kemal Efe 11 December 2009 (has links) In this doctoral dissertation, two laser-based sensors were evaluated for different applications. Laser Induced Incandescence (LII) is a technique which can provide nonintrusive quantitative measurement of soot and it provides a unique diagnostic tool to characterize engine performance. Since LII is linearly proportional to the soot volume fraction, it can provide in situ, real time measurement of soot volume fraction with high temporal and spatial resolution. LII has the capability to characterize soot formation during combustion. The soot volume fraction from both flames and a soot generator was investigated with LII. The effects of experimental parameters, such as laser fluence, gate delay, gate width and various laser beam focusing, on LII signal was studied. Laser Induced Breakdown Spectroscopy (LIBS), a diagnostic tool for in situ elemental analysis, has been evaluated for on-line, simultaneous, multi-species impurity monitoring in hydrogen. LIBS spectra with different impurity levels of nitrogen, argon, and oxygen were recorded and the intensity of the spectral lines of Ar, O, N, and H observed were used to form calibration plots for impurities in hydrogen measurements. An ungated detection method for LIBS has been developed and applied to equivalence ratio measurements of CH4/air and biofuel/air. LIBS has also been used to quantitatively analyze the composition of a slurry sample. The quenching effect of water in slurry samples causes low LIBS signal quality with poor sensitivity. Univariate and multivariate calibration was performed on LIBS spectra of dried slurry samples for elemental analysis of Mg, Si and Fe. Calibration results show that the dried slurry samples give good correlation between spectral intensity and elemental concentration. LII hydrogen gas spectormeters spectroscopy LIBS slurry limit of detection multivariate analysis
12	Computational methods for the objective review of forensic DNA testing results Gilder, Jason R. 31 July 2007 (has links) No description available. Bioinformatics Forensics PCR-STR DNA Limit of detection Degraded DNA Mixture interpretation DNA databases Familial searching
13	MULTI-MODE SELF-REFERENCING SURFACE PLASMON RESONANCE SENSORS Guo, Jing 01 January 2013 (has links) Surface-plasmon-resonance (SPR) sensors are widely used in biological, chemical, medical, and environmental sensing. This dissertation describes the design and development of dual-mode, self-referencing SPR sensors supporting two surface-plasmon modes (long- and short-range) which can differentiate surface binding interactions from bulk index changes at a single sensing location. Dual-mode SPR sensors have been optimized for surface limit of detection (LOD). In a wavelength interrogated optical setup, both surface plasmons are simultaneously excited at the same location and incident angle but at different wavelengths. To improve the sensor performance, a new approach to dual-mode SPR sensing is presented that offers improved differentiation between surface and bulk effects. By using an angular interrogation, both surface plasmons are simultaneously excited at the same location and wavelength but at different angles. Angular interrogation offers at least a factor of 3.6 improvement in surface and bulk cross-sensitivity compared to wavelength-interrogated dual-mode SPR sensors. Multi-mode SPR sensors supporting at least three surface-plasmon modes can differentiate a target surface effect from interfering surface effects and bulk index changes. This dissertation describes a tri-mode SPR sensor which supports three surface plasmon resonance modes at one single sensing position, where each mode is excited at a different wavelength. The tri-mode SPR sensor can successfully differentiate specific binding from the non-specific binding and bulk index changes. Surface Plasmon Resonance SPR Sensor Biosensor Cross-sensitivity Limit of Detection (LOD) Biomedical Nanotechnology fabrication Signal Processing
14	Desenvolvimento de metodologia para funcionalizar superfícies de ouro com biomoléculas. Construção de biosensor para detecção de citocromo c. / Development of methodology to functionalize gold surfaces with biomolecules. Construction of biosensor for detection of cytochrome c Trolise, Rodrigo Matias 16 December 2010 (has links) Neste trabalho estão apresentadas novas estratégias para funcionalizar superfícies de ouro baseadas na sustentação de bicamadas lipídicas em superfícies de sensores de imagem por Ressonância de Plasmons de Superfície (SPRi) e a construção de um biosensor para detecção de citocromo c. SPRi é uma técnica ótica de gravimetria em tempo real. Por meio de medidas de variações de índice de refração (n) próximas a uma interface, a adsorção e desorção de moléculas podem ser mensuradas. Inicialmente testamos várias estratégias para encontrar um suporte adequado que se ligasse na superfície de ouro e que oferecesse sustentação e estabilidade para a bicamada de fosfolipídeo biotinilado. Estudos de FT-IR e MEV mostraram que a quitosana facilita a formação de uma bicamada íntegra de fosfolipídeos, de tal modo, que a mesma alcança valores de espessura próximos àqueles previstos, ~ 34,5 Å. Além disso, mostramos que esse sistema apresenta vantagens perante outros modelos, tais como, (poli-lisina/fosfolipídeos) e (tiol hidrofóbico/fosfolipídeo). Utilizando-se o complexo químico biotina/estreptoavidina conseguimos imobilizar o anticorpo anti cit c na bicamada, mantendo-o afastado da superfície de ouro. A construção do biosensor foi acompanhada com experimentos de SPRi. O limite de detecção de citocromo c atingido foi de 10-11mol/L. Um sensor construído somente com BSA e anticorpo anti cit c apresentou sensibilidade semelhante. Esta sensibilidade é em torno de três ordens de grandeza superior aos experimentos de imunoblotting usualmente utilizados para detecção de cit c. A principal limitação deste biosensor, tal como de outros imunoensaios, está intimamente ligada às vantagens e desvantagens dos anticorpos como ferramentas analíticas. / In this work we developed new strategies to functionalize gold surfaces based on the support of lipid bilayers on the surfaces of surface plasmon resonance imaging sensors (SPRi) and the construction of a biosensor for detection of cytochrome c. SPRi is an optical gravimetric real time technique. Through measurements of changes in refractive index (n) in close proximity to an interface, the adsorption and desorption of molecules can be measured. Initially we tested several strategies for finding a suitable medium that would adsorb on the gold surface and also support and stabilize a biotinylated phospholipid bilayer. Studies of FT-IR and SEM showed that chitosan induces the formation of an intact phospholipid bilayer, so that it reaches thickness values close to those expected, ~ 34.5 Å. Furthermore, we showed that this system has advantages in relation to other models, such as (poli-lisine/phospholipids) and (thiol hydrophobic / phospholipid). Using the chemical complex biotin/streptavidin anti cyt c antibody could be immobilized in the bilayer, keeping it away from the gold surface. The construction of the biosensor was accompanied with SPRi experiments. The limit of detection of cytochrome c was achieved from 10-11mol / L. A sensor built only with BSA and anti cyt c showed similar sensitivity. This sensitivity is about three orders of magnitude higher than the immunoblotting experiments commonly used for detection of cyt c. The main limitation of this biosensor, like in other immunoassays, is linked to the advantages and disadvantages of antibodies as analytical tools. Biosensores Biosensors Chitosan Citocromo c Cytochrome c Fosfolipídeos Limit of detection Limite de detecção Phospholipids Quitosana Ressonância de plasmons de superfície Surface plasmon resonance
15	Sensitivity, Noise and Detection of Enzyme Inhibition in Progress Curves Gutiérrez Arenas, Omar January 2006 (has links) <p>Starting with the development of an enzymatic assay, where an enzyme in solution hydrolysed a solid-phase bound peptide, a model for the kinetics of enzyme action was introduced. This model allowed the estimation of kinetic parameters and enzyme activity for a system that has the peculiarity of not being saturable with the substrate, but with the enzyme. In a derivation of the model, it was found that the sensitivity of the signal to variations in the enzyme concentration had a transient increase along the reaction progress with a maximum at high substrate conversion levels. </p><p>The same behaviour was derived for the sensitivity in classical homogeneous enzymatic assays and experimental evidence of this was obtained. The impact of the transient increase of the sensitivity on the error structure, and on the ability of homogeneous end-point enzymatic assays to detect competitive inhibition, came into focus. First, a non-monotonous shape in the standard deviation of progress curve data was found and it was attributed to the random dispersion in the enzyme concentration operating through the transient increase in the sensitivity. Second, a model for the detection limit of the quantity Ki/[I] (the IDL-factor) as a function of the substrate conversion level was developed for homogeneous end-point enzymatic assays. </p><p>It was found that the substrate conversion level where the IDL-factor reached an optimum was beyond the initial velocity range. Moreover, at this optimal point not only the ability to detect inhibitors but also the robustness of the assays was maximized. These results may prove to be relevant in drug discovery for optimising end point homogeneous enzymatic assays that are used to find inhibitors against a target enzyme in compound libraries, which are usually big (>10000) and crowded with irrelevant compounds.</p> Biochemistry Progress curves limit of detection Z'-factor primary screening enzyme inhibition error structure sensitivity analysis High-throughput screning Biokemi
16	Exploration de nouveaux concepts pour les analyses quantitatives et fonctionnelles de microbiotes modèles d'intérêt dual / Exploration of new concepts for the quantitative and functional analyses of microbiota models of dual interest Mappa, Charlotte 19 October 2018 (has links) La détection et l’identification de micro-organismes pathogènes est un réel enjeu de santé public tant au niveau alimentaire, que clinique ou d’intérêt national tel qu’illustré en biodéfense. Dans tous ces domaines, il est important d‘avoir des méthodes d’identification et de détection qui soient à la fois rapide, sensible et robuste. Cette thèse a pour objectif de contribuer au développement d’une approche rapide d’identification de micro-organismes sans a priori par spectrométrie de masse en tandem. Cette approche innovante, appelée phylopeptidomique, repose sur l’alliance de la peptidomique, i.e. analyse à large échelle des peptides provenant de la digestion enzymatique d’un échantillon biologique, et de la phylogénie des organismes cellulaires. Après extraction des protéines présentes dans l’échantillon à ausculter, des peptides sont générés et analysés par spectrométrie de masse en tandem. La déconvolution des signaux MS/MS à l’aide du logiciel « µOrg.ID » développé en propre au laboratoire permet d’identifier et quantifier les organismes présents dans l’échantillon en fonction des organismes indexés dans les bases de données. L’étude du protéome de Bacillus atrophaeus, agent simulant de l’anthrax, sous forme sporulée et végétative a permis d’illustrer une méthode d’identification de biomarqueurs protéiques permettant de déterminer le ratio entre les deux formes dans un échantillon. La limite de détection de la phylopeptidomique dans des échantillons purs et des échantillons en mélange équimolaire a été établie sur des bactéries modèles d’intérêts médical et environnemental. La limite de détection de spores de Bacillus atrophaeus en présence de 14 matrices interférentes (alimentaires, environnementales et autres) a permis de mettre en évidence les avantages et limitations de l’approche. Enfin, un mélange artificiel standardisé de 24 organismes a été développé afin d’évaluer les outils de bio-informatique en métaprotéomique. / The detection and identification of pathogenic microorganisms is a real public health issue for the food industry and the clinics or national interest as illustrated in the biodefense field. Thus, it is important to have identification and detection methods that are fast, sensitive and robust. This PhD thesis aims at contributing to the development of a rapid approach to identify microorganisms without any a priori by tandem mass spectrometry. This innovative approach, called phylopeptidomics, is based on the combination of peptidomics, i.e. large scale analysis of peptides derived from the enzymatic digestion of a biological sample, and the phylogeny of cellular organisms. After extraction of the proteins from the sample of interest, peptides are generated and analyzed by tandem mass spectrometry. The deconvolution of MS/MS signals using the "μOrg.ID" software developed in the laboratory enables the identification and quantification of organisms present in the sample according to the organisms indexed in generalist databases. The study of the proteome of Bacillus atrophaeus, a simulant agent of anthrax, in sporulated and vegetative form, has provided an illustration of a new method of identification of protein biomarkers, which allows determining the ratio between both forms. The limit of detection of phylopeptidomics in pure samples and equimolar mixtures was established with model bacteria of medical and environmental interests. The limit of detection of B. atrophaeus spores in the presence of 14 interfering matrices (food, environmental and others) has highlighted the advantages and limitations of the approach. Finally, a standardized artificial mixture of 24 organisms was developed in order to evaluate bioinformatics tools in metaproteomics. Protéomique Spectrométrie de masse Limite de détection Micro-Organisme pathogène Bacillus Spore Proteomic Mass spectrometry Limit of detection Pathogen microorganism Bacillus Spore
17	Desenvolvimento de metodologia para funcionalizar superfícies de ouro com biomoléculas. Construção de biosensor para detecção de citocromo c. / Development of methodology to functionalize gold surfaces with biomolecules. Construction of biosensor for detection of cytochrome c Rodrigo Matias Trolise 16 December 2010 (has links) Neste trabalho estão apresentadas novas estratégias para funcionalizar superfícies de ouro baseadas na sustentação de bicamadas lipídicas em superfícies de sensores de imagem por Ressonância de Plasmons de Superfície (SPRi) e a construção de um biosensor para detecção de citocromo c. SPRi é uma técnica ótica de gravimetria em tempo real. Por meio de medidas de variações de índice de refração (n) próximas a uma interface, a adsorção e desorção de moléculas podem ser mensuradas. Inicialmente testamos várias estratégias para encontrar um suporte adequado que se ligasse na superfície de ouro e que oferecesse sustentação e estabilidade para a bicamada de fosfolipídeo biotinilado. Estudos de FT-IR e MEV mostraram que a quitosana facilita a formação de uma bicamada íntegra de fosfolipídeos, de tal modo, que a mesma alcança valores de espessura próximos àqueles previstos, ~ 34,5 Å. Além disso, mostramos que esse sistema apresenta vantagens perante outros modelos, tais como, (poli-lisina/fosfolipídeos) e (tiol hidrofóbico/fosfolipídeo). Utilizando-se o complexo químico biotina/estreptoavidina conseguimos imobilizar o anticorpo anti cit c na bicamada, mantendo-o afastado da superfície de ouro. A construção do biosensor foi acompanhada com experimentos de SPRi. O limite de detecção de citocromo c atingido foi de 10-11mol/L. Um sensor construído somente com BSA e anticorpo anti cit c apresentou sensibilidade semelhante. Esta sensibilidade é em torno de três ordens de grandeza superior aos experimentos de imunoblotting usualmente utilizados para detecção de cit c. A principal limitação deste biosensor, tal como de outros imunoensaios, está intimamente ligada às vantagens e desvantagens dos anticorpos como ferramentas analíticas. / In this work we developed new strategies to functionalize gold surfaces based on the support of lipid bilayers on the surfaces of surface plasmon resonance imaging sensors (SPRi) and the construction of a biosensor for detection of cytochrome c. SPRi is an optical gravimetric real time technique. Through measurements of changes in refractive index (n) in close proximity to an interface, the adsorption and desorption of molecules can be measured. Initially we tested several strategies for finding a suitable medium that would adsorb on the gold surface and also support and stabilize a biotinylated phospholipid bilayer. Studies of FT-IR and SEM showed that chitosan induces the formation of an intact phospholipid bilayer, so that it reaches thickness values close to those expected, ~ 34.5 Å. Furthermore, we showed that this system has advantages in relation to other models, such as (poli-lisine/phospholipids) and (thiol hydrophobic / phospholipid). Using the chemical complex biotin/streptavidin anti cyt c antibody could be immobilized in the bilayer, keeping it away from the gold surface. The construction of the biosensor was accompanied with SPRi experiments. The limit of detection of cytochrome c was achieved from 10-11mol / L. A sensor built only with BSA and anti cyt c showed similar sensitivity. This sensitivity is about three orders of magnitude higher than the immunoblotting experiments commonly used for detection of cyt c. The main limitation of this biosensor, like in other immunoassays, is linked to the advantages and disadvantages of antibodies as analytical tools. Biosensores Citocromo c Fosfolipídeos Limite de detecção Quitosana Ressonância de plasmons de superfície Biosensors Chitosan Cytochrome c Limit of detection Phospholipids Surface plasmon resonance
18	Methods for handling missing data due to a limit of detection in longitudinal lognormal data Dick, Nicole Marie January 1900 (has links) Master of Science / Department of Statistics / Suzanne Dubnicka / In animal science, challenge model studies often produce longitudinal data. Many times the lognormal distribution is useful in modeling the data at each time point. Escherichia coli O157 (E. coli O157) studies measure and record the concentration of colonies of the bacteria. There are times when the concentration of colonies present is too low, falling below a limit of detection. In these cases a zero is recorded for the concentration. Researchers employ a method of enrichment to determine if E. coli O157 was truly not present. This enrichment process searches for bacteria colony concentrations a second time to confirm or refute the previous measurement. If enrichment comes back without evidence of any bacteria colonies present, a zero remains as the observed concentration. If enrichment comes back with presence of bacteria colonies, a minimum value is imputed for the concentration. At the conclusion of the study the data are log10-transformed. One problem with the transformation is that the log of zero is mathematically undefined, so any observed concentrations still recorded as a zero after enrichment can not be log-transformed. Current practice carries the zero value from the lognormal data to the normal data. The purpose of this report is to evaluate methods for handling missing data due to a limit of detection and to provide results for various analyses of the longitudinal data. Multiple methods of imputing a value for the missing data are compared. Each method is analyzed by fitting three different models using SAS. To determine which method is most accurately explaining the data, a simulation study was conducted. Lognormal Longitudinal Limit of detection Missing data Repeated measures Statistics Agriculture, Animal Pathology (0476) Mathematics (0405) Statistics (0463)
19	Generell metod för analys av pesticider med HS-SPME i kombination med GC-MS : Möjligheten att identifiera pesticider i känd lösning och i förgiftningsfall Eliasson Heino, Samuel January 2022 (has links) This study focuses on a general method that has been developed for the identification of both polar- and nonpolar pesticidespolar pesticides in a known solution from EPA 8151 Herbicide acid mix by Merck including the ordered non-polar pesticide Prosulfocarb. The EPA-solution contains 16 analytes that has been completely identified when derivatized and spiked in acetone. The solution has also been spiked in blood samples, resulting in five calibration solutions in the range of 0,01 – 2,5 µg/g, followed by quantification. Identification of dinoseb and bentazone, spiked in blood, failed whereas the remaining 145 analytes were identified. The method uses headspace (HS) solid phase microextraction (SPME) in combination with gas chromatography (GC) with mass spectrometry (MS) in both scan and selected ion monitoring mode. A standard extraction- and derivatization procedure has been performed for the analysis of alcohols, phenols, and carboxylic acids with help from a protocol regarding the analysis of ethylene glycol in blood. Samples were introduced on the column with splitless injection where 1 µl were injected with an injector temperature of 250oC. Effective separations were achieved by using GS-GasPro PLOT-column (30 m x i.d. 320 µm x df 0 µm) in combination with a temperature programme that started at an initial temperature of 80oC (1 min) that increased by 10oC/min up to 280oC (1 min). The limit of detection (LOD) for the pesticides, spiked blood, were 0,01 – 2,5 µg/g where the lowest limit of 0,01 µg/g meant difficult identification whereas a greater identification was made at 0,05 µg/g. No identification was succeeded for the most polar substances in the forms of amines and amides in combination with carboxylic acid. Identification was however made for the less polar pesticides in the forms of alcohols, phenols, and carboxylic acids. The method must be further developed to identify the highly polar pesticides in different chemical classes. The current method can be used in occurring intoxications and in autopsy cases. Gas chromatography-mass spectrometry Pesticides Intoxication Limit of detection headspace-SPME EPA 8151 Detection Derivatization Separation Analytical Chemistry Analytisk kemi
20	Sensitivity, Noise and Detection of Enzyme Inhibition in Progress Curves Gutierrez Arenas, Omar January 2006 (has links) Starting with the development of an enzymatic assay, where an enzyme in solution hydrolysed a solid-phase bound peptide, a model for the kinetics of enzyme action was introduced. This model allowed the estimation of kinetic parameters and enzyme activity for a system that has the peculiarity of not being saturable with the substrate, but with the enzyme. In a derivation of the model, it was found that the sensitivity of the signal to variations in the enzyme concentration had a transient increase along the reaction progress with a maximum at high substrate conversion levels. The same behaviour was derived for the sensitivity in classical homogeneous enzymatic assays and experimental evidence of this was obtained. The impact of the transient increase of the sensitivity on the error structure, and on the ability of homogeneous end-point enzymatic assays to detect competitive inhibition, came into focus. First, a non-monotonous shape in the standard deviation of progress curve data was found and it was attributed to the random dispersion in the enzyme concentration operating through the transient increase in the sensitivity. Second, a model for the detection limit of the quantity Ki/[I] (the IDL-factor) as a function of the substrate conversion level was developed for homogeneous end-point enzymatic assays. It was found that the substrate conversion level where the IDL-factor reached an optimum was beyond the initial velocity range. Moreover, at this optimal point not only the ability to detect inhibitors but also the robustness of the assays was maximized. These results may prove to be relevant in drug discovery for optimising end point homogeneous enzymatic assays that are used to find inhibitors against a target enzyme in compound libraries, which are usually big (>10000) and crowded with irrelevant compounds. Biochemistry Progress curves limit of detection Z'-factor primary screening enzyme inhibition error structure sensitivity analysis High-throughput screning Biokemi Biochemistry and Molecular Biology Biokemi och molekylärbiologi

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