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Massenspektrometrische Untersuchungen an Präparaten oraler Bürstenbiopsien bei potenziell malignen Veränderungen der MundschleimhautWeber, Michaela 03 June 2019 (has links)
Das Plattenepithelkarzinom stellt mit über 90% die häufigste maligne Neubildung innerhalb der Mundhöhle mit gravierenden funktionellen Einschränkungen für die betroffenen Patienten und hoher Mortalität dar. In den meisten Fällen bestehen bereits vor der malignen Transformation visuell erkennbare Veränderungen mit höherem Entartungspotential, sogenannte potenziell maligne Veränderungen.
Die vorliegende Arbeit beschäftigt sich mit einem experimentellen Verfahren zur oralen Tumorfrüherkennung und Dignitätsabklärung von potenziell malignen Veränderungen der Mundschleimhaut. Grundlage bildet das Verfahren des „intact cell peptidome profiling“ (ICPP) mittels MALDI-TOF MS anhand von Präparaten oraler Bürstenbiopsien. Untersucht wurden 16 Proben oraler Plattenepithelkarzinome, 69 Fälle von oralem Lichen planus, 26 orale Leukoplakien, 21 andere orale Veränderungen sowie 56 Mundschleimhautläsionen an Fanconi-Anämie erkrankter Patienten.
Die Methode eignet sich zur Unterscheidung zwischen gesunder Mundschleimhaut und maligne verändertem Gewebe, wie mit einer Sensitivität von 86 % und einer Spezifität von 100 % belegt wurde. Eine Differenzierung zwischen den einzelnen Mundschleimhautveränderungen und gesundem Gewebe konnte nicht erreicht werden. Die Untersuchungsreihe ist als vielversprechend einzuschätzen, um ein weiterführendes diagnostisches Verfahren zu entwickeln, dass den Untersucher durch eine objektive Messmethode unterstützen und Sensitivität und Spezifität der Bürstenbiopsie steigern könnte.
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Contribution of MALDI-TOF mass spectrometry in the microbiological diagnosis and clinical management of patients suffering from infectious diseases / Contribution de la spectrométrie de masse MALDI-TOF dans le diagnostic microbiologique et la prise en charge clinique du patient infectéMartiny, Delphine 02 December 2013 (has links)
In infected patients, the rapid identification of pathogens is critical. After a long period of slow technological improvement, the microbiology laboratory is now undergoing significant evolution. This work evaluated the contribution of recent MALDI-TOF MS technology in terms of the diagnosis and clinical management of patients and its implementation in the laboratory of tomorrow. The studies were conducted over a 3.5-year period, mostly in the iris public hospital network of Brussels. <p>First, we confirmed the accurate performance of MALDI-TOF MS in the identification of routine isolates, regardless of whether the Biotyper (92.7% correct species identification) or VITEK MS (93.2%) (n=986) commercial system was used, and demonstrated the supremacy of this technology over conventional identification techniques for fastidious bacteria, including Campylobacter and related organisms (98.3%, 72.2% and 79.9% correct species identification by Biotyper, Vitek NH Card and API Campy, respectively; n=234). <p>Second, we showed that the direct MALDI-TOF MS identification of bacteria from positive blood cultures was not only feasible but also led to an 24-h reduction in the time-to-identification. In an adult population, more than 13% of the direct identifications from positive blood cultures resulted in the faster adaptation of the antimicrobial treatment. <p>Third, we demonstrated that MALDI-TOF MS could easily be implemented in a network, which was associated with significant cost savings and reduction in the time-to-identification. Finally, our promising Blastocystis subtyping results suggest that the number of MALDI-TOF MS applications may be increased.<p>In the future, automation of the technique will make its use in clinical laboratories even easier, eliminating the use of conventional identification techniques. Improvement of the preanalytical procedures is also important to make MALDI-TOF MS a suitable instrument for resistance and toxicity mechanism detection and subtyping. <p> / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished
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Understanding molecular aspects of catfish-pathogen interactionsDumpala, Pradeepkumar Reddy 07 August 2010 (has links)
The catfish industry suffers losses primarily due to enteric septicemia of catfish and columnaris disease caused by Edwardsiella ictaluri and Flavobacterium columnare, respectively. Understanding the host-pathogen interactions is vital for prevention and eradication of these diseases. Hence, the overall objective of this study was to analyze whole cell proteomes of these two bacteria, and to determine the changes in E. ictaluri protein expression against in vitro iron-restriction and host serum treatment. High-throughput proteomic analysis of these bacteria was conducted using two-dimensional liquid chromatography followed by electrospray ionization tandem mass spectrometry (2-D LC ESI MS/MS) and two-dimentional gel electrophoresis coupled with matrix-assisted laser desorption/ionization time-oflight mass spectrometry (2-DE MALDI TOF/TOF). Identified proteins were clustered into functional groups using clusters of orthologous groups, and subcellular locations as well as possible functional relationships were determined. A total of 788 unique E. ictaluri and 621 unique F. columnare proteins were identified, which represented 12 and 28 pathways, respectively. Vertebrate hosts tend to chelate free iron of their body and make the environment hostile for bacteria. Hence, reduced availability of iron may cause significant stress for pathogens and is considered a signal that leads to alteration in virulent gene expression. Similarly, E. ictaluri might use the catfish blood stream effectively for quick systemic invasion. Hence, exposure to catfish serum components might reveal the ability of E. ictaluri to protect against host defense mechanisms. Using two-dimensional difference gel electrophoresis, responses of E. ictaluri due to in vitro iron-restriction and host serum treatment were determined. A total of 50 and 19 proteins were identified to be differentially expressed due to in vitro iron-restriction and catfish serum treatment, respectively. Among the differentially expressed proteins, several putative virulent determinants, immunogenic proteins, chaperones, and housekeeping genes were noted. To initiate functional studies, four differentially expressed E. ictaluri genes (lamB, glyS, malE, and sdhA) were mutated by inrame deletion. Results from this study provided experimental evidence for many predicted proteins. In addition, identification of differentially expressed proteins provided targets for further functional analysis, which could help elucidate pathogenic mechanisms of E. ictaluri.
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Controlled Synthesis and Characterization of Branched, Functionalized, and Cyclic PolymersChavan, Vijay S. 10 August 2011 (has links)
No description available.
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Characterization of Protein Modification by Products of Lipid PeroxidationZhu, Xiaochun January 2009 (has links)
No description available.
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DETERMINATION OF THE AMINO TERMINUS OF MITOCHONDRIAL GLYOXALASE II ISOZYMES USING A PROTEOMIC APPROACHNimako, George K. 12 December 2003 (has links)
No description available.
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Massenspektrometrische Untersuchungen einzelner PollenkörnerLauer, Franziska 15 April 2019 (has links)
Blütenstaub ist eine der Hauptursachen für allergische Erkrankungen des Menschen. Insbesondere die Matrix-unterstützte Laser-Desorption/Ionisation-Flugzeit Massenspektrometrie stellt eine geeignete Technik dar, um solch komplexe, biologische Proben zu charakterisieren.
Bei MALDI-TOF MS-Analysen werden die Bestandteile detektiert, die zuvor durch die Matrixauftragung und/oder während der Laser-Desorption von der Oberfläche des Pollenkorns abgelöst werden. Hier zeigte sich, dass die Verwendung eines leitfähigen Klebebandes zur Probenpräparation sowohl die Fixierung der Pollenkörner als auch die Extraktion der Analyten aus diesen verbessert.
Die gezeigten Ergebnisse belegen, dass sich Pollen verschiedener Pflanzenarten über den Vergleich von massenspektrometrischen Peakmustern differenzieren lassen. Zur Beurteilung der spektralen Muster wurden in dieser Arbeit multivariate, statistische Verfahren, speziell die Hauptkomponentenanalyse verwendet. Diese hebt Unterschiede in den Datensätzen hervor und ermöglicht eine varianzgewichtete Darstellung und verbesserte Klassifizierung. Zur effizienten multivarianten Analyse wurde dieses Verfahren in eine graphische Benutzeroberfläche eingebunden.
Neben der individuellen Charakterisierung einzelner Pollenproben liegt eine weitere Herausforderung in der massenspektrometrischen Analyse von Pollenkornmischungen, da es durch Vermischungs- und Suppressionseffekte zur Diskriminierung einzelner, möglicherweise charakteristischer MS-Peaks kommen kann. Deshalb wurde in dieser Arbeit die bildgebende MALDI Massenspektrometrie angewendet. So konnten in einem Modellsystem einzelne Pollenkörner unterschiedlicher Arten nachgewiesen und ihren ursprünglichen Positionen in der Probe zugeordnet werden.
Der im Rahmen der Arbeit vorgestellte Ansatz stellt eine neue, zuverlässige Methode zur Pollenbestimmung dar, die nicht auf der individuellen, visuellen Beurteilung, sondern auf einer spektrometrisch-analytischen Basis beruht. / Pollen represent one of the major causes for allergies in humans. Matrix-assisted laser desorption/ ionization time-of-flight is a suitable technique to characterize such complex biological samples.
In pollen analyses, MALDI-TOF MS detects components that are extracted from the grain surface by the matrix solution and during laser desorption. Like any biological structure, pollen grains contain specific proteins, peptides, lipids and carbohydrates that produce characteristic signal patterns in the mass spectrum. The sample preparation applied in this work showed that the use of a conductive adhesive tape improves both the fixation of the pollen grains and the extraction of the analytes from them.
The shown results prove that pollen of different plant species can be differentiated by comparing their respective mass spectral patterns. For the evaluation of such spectral patterns multivariate statistical methods, and in this work especially principal component analysis, are needed. PCA highlights differences in data sets and enables variance-weighting and improved classification. For efficient multivariate analysis, this method was integrated into a graphical user interface.
In addition to the individual characterization of pollen samples, the mass spectrometric analysis of pollen grain mixtures posed a further challenge, since mixing and suppression effects can lead to discrimination of individual, possibly characteristic MS-peaks. For this purpose, the MALDI MS Imaging technique was applied. For the evaluation of such imaging data sets, further multivariate methods were applied,
investigated, and evaluated. Thereby, in a model system individual pollen grains of different species could be identified and assigned their original position in the sample.
The presented approach represents a new, reliable method for pollen determination, based on spectrometric-analytical basis rather than an individual visual assessment.
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Mechanochemical polymerization – controlling a polycondensation reaction between a diamine and a dialdehyde in a ball millBorchardt, Lars, Grätz, Sven 04 April 2017 (has links) (PDF)
The mechanochemical polycondensation between a diamine and a dialdehyde constitutes a sustainable alternative to classical solvent-based polymerization reactions. This process not only allows for a higher conversion and a shorter reaction time as compared to standard solvent-based syntheses of this conjugated polymer, but the reaction can also be adjusted by the energy introduced via the ball mill.
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Application de la spectrométrie de masse MALDI-TOF en microbiologie cliniqueSeng, Piseth 09 July 2013 (has links)
L'objectif de cette thèse est d'appliquer la méthode d'identification bactérienne par spectrométrie de masse MALDI-TOF pour une utilisation en routine dans un laboratoire de microbiologie clinique. Dans un 1er temps et de manière prospective, nous avons évalué la performance et le coût-efficacité de l'identification bactérienne de routine par MALDI-TOF par rapport aux techniques conventionnelles d'identification phénotypique. Durant la période des 16 semaines d'étude, nous avons comparé la performance de la technique par MALDI-TOF aux techniques conventionnelles d'identification phénotypique comprenant la coloration de Gram, la galerie API ANA et le Vitek 2. En cas de résultats discordants entre ces deux techniques, l'identification était réalisée par biologie moléculaire. Nous avons montré que le MALDI-TOF est un moyen efficace et rentable pour l'identification des bactéries de routine. Le MALDI-TOF peut être utilisée en 1ère intention dans l'identification bactérienne avant l'ensemble de techniques phénotypiques. Dans un 2ème temps, nous avons évalué rétrospectivement la performance et le coût-efficacité de l'utilisation exclusive de MALDI-TOF en diagnostic bactériologique de routine en comparaison avec les techniques conventionnelles. En analysant les données des 11 dernières années, nous avons montré que le MALDI-TOF est efficace et tout à fait adaptée pour l'identification d'espèce bactérienne en routine. Nous avons également prouvé que MALDI-TOF est un outil puissant pour identifier les espèces bactériennes rarement impliquées dans les infections humaines. Cette technique pourrait être une alternative aux méthodes moléculaires dans le laboratoire clinique. / The objective of this thesis is to apply the method of bacterial identification by MALDI-TOF MS in daily practice in a routine clinical microbiological laboratory. Firstly, we prospectively evaluated the performance and the cost-effective of bacterial identification by MALDI-TOF in comparison with conventional phenotypic identification methods. During a 16-week study, we compared the performance of MALDI-TOF with conventional techniques of identification including Gram staining, API ANA identification strip and automated identification using the Vitek 2. The unmatched identifications between MALDI-TOF and conventional methods were resolved by molecular identification. In this study, we showed that MALDI-TOF was an effective tool and less expensive for the rapid identification of bacterial species in clinical microbiology laboratory. MALDI-TOF can be used in first intention for identification before Gram staining or other phenotypic identification techniques based on physicochemical properties of bacteria. Secondly, we retrospectively evaluated the performance and the cost-effectiveness of the exclusive use of MALDI-TOF in bacteriological diagnosis in comparison with conventional phenotypic identification. 11-year retrospective analysis of data showed that MALDI-TOF was efficient and completely adapted for the routine identification of bacterial species. We also showed that MALDI-TOF had capacity to identify bacterial species that were rarely involved in human diseases. This technique could be an alternative to molecular methods in the clinical laboratory.
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Mechanochemical polymerization – controlling a polycondensation reaction between a diamine and a dialdehyde in a ball millBorchardt, Lars, Grätz, Sven 04 April 2017 (has links)
The mechanochemical polycondensation between a diamine and a dialdehyde constitutes a sustainable alternative to classical solvent-based polymerization reactions. This process not only allows for a higher conversion and a shorter reaction time as compared to standard solvent-based syntheses of this conjugated polymer, but the reaction can also be adjusted by the energy introduced via the ball mill.
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