Global ETD Search

1	Ultraljuds effekt på bakterier : Studie av ultraljuds effekt på bakterier vid olika temperaturer och frekvenser av ultraljud. / Influence of ultrasound on bacteria Brinck, Kajsa January 2011 (has links) No description available. Sonikering ultraljudsvågor protes biofilm S. aureus S. epidermidis E. coli
2	Well-controlled and well-described SAMs-based platforms for the study of material-bacteria interactions occuring at the molecular scale / Des plateformes monocouches moléculaires auto-assemblées, contrôlées et décrites de façon approfondie, pour l'étude des interactions matériau-bactérie à l'échelle moléculaire Böhmler, Judith 11 September 2012 (has links) L'adhésion bactérienne est la première étape du processus de formation d'un biofilm et est un enjeu majeur de la recherche depuis plusieurs dizaines d'années. Les biofilms ont des conséquences parfois dramatiques dans des domaines comme la santé, l'agroalimentaire ou la purification des eaux usées. Toutefois, l'adhésion bactérienne reste un phénomène mal compris. Dans cette thèse, l'adhésion bactérienne est étudiée sur des surfaces modèles très bien organisées et structurées, de chimie de surface variable à l'échelle moléculaire. Une méthodologie de caractérisation adaptée aux monocouches déposées sur wafers de silicium est proposée. Des surfaces modèles composées de monocouches mixtes auto-assemblées de densités variables de NH2 dans un continuum de CH, sont développées et optimisées. Ces surfaces contrôlées, de densités de 0% NH2 à 100% NH2 dans CH3, sont utilisées comme outil pour étudier l'adhésion bactérienne en conditions de culture « batch »et « temps réel ». Les résultats montrent un impact significatif sur l'adhésion bactérienne de faibles différences chimiques à l'échelle moléculaire. Les résultats des expériences menées en conditions « batch » permettent de déterminer deux zones « plateau » dans lesquelles l'adhésion bactérienne ne varie pas significativement malgré des variations importantes de la concentration en groupements amine sur la surface. Une zone de transition entre les zones « plateau » est mise en évidence, dans laquelle une faible modification de la concentration en groupement amine mène à l'augmentation / diminution significative du nombre de bactéries adhérées. Cette tendance est montrée pour deux souches différentes de bactérie. / Bacterial adhesion is the first step of biofilm formation and in the focus of research interest since several decades. Biofilms cause many problems, sometimes dramatic, for example in health, food packing or waste water purification. Despite of high interest, bacterial adhesion process is only poorly understood yet. In this work, bacterial adhesion was investigated on well-organized and structured model surfaces with various chemistries at molecular scale. For that purpose a characterization methodology was developed to sufficiently analyze monolayers on silicon wafers, and controlled mixed monolayers surfaces with different densities of NH 2 backfilled with CH3 were developed and optimized. These controlled surfaces with different densities of 0 % NH2 up to 100% NH2 were eventually used as tool to study bacterial adhesion in batch and real time conditions. The results demonstrate a significant impact on bacterial adhesion of weak difference in the surface chemistry at molecular scale. In the batch experiments, two so-called "plateaus" zones were determined, in which bacterial adhesion is not significantly different despite the change of the amine concentration on the surface. On the contrary, one transition zone exists between the "plateaus" in which a slight chunge.in the amine concentration leads to a significant increase / decrease of the bacterial adhesion. The same trend of bacteria behavior was observed for different bacterial strains. Plaquette de silicium Spectres haute résolution XPS SAM Monocouches mixtes E. coli SCCI S. epidermidis ATCC35984 Adhésion bactérienne Expériences en temps réel Silicon wafer XPS high resolution spectra SAM Mixed Monolayers E. coli SCCI S. epidermidis ATCC35984 Bacterial adhesion Real-time experiments
3	Étude expérimentale du transport des aérosols dans un espace clos ventilé et impact des principales stratégies d'épuration microbiologique de l'air sur l'exposition des occupants Delaby, Stéphane 09 July 2008 (has links) L’exposition aux aérosols microbiologiques présents dans les environnements clos est susceptible de provoquer, chez les occupants, diverses pathologies telles que des infections, des toxi-infections et des allergies. Pour s’en prémunir, diverses stratégies passant notamment par l’emploi de dispositifs épurateurs d’air, ont été développées et commercialisées par les industriels de la ventilation et du traitement de l’air. Cependant, à ce jour, aucune méthodologie d’évaluation y compris normative ne permet d’évaluer la pertinence de ces stratégies. Ce travail de recherche se propose, d’une part, d’appréhender le devenir des aérosols microbiologiques au sein des espaces clos : de la source à l’individu exposé, en explorant le rôle de la ventilation dans ce transport et, d’autre part, d’explorer le gain apporté par les nouvelles technologies de traitement microbiologique de l’air sur l’exposition des occupants. Pour ce dernier point de l’étude, une démarche globale d’évaluation en 3 volets a été adoptée avec l’étude de l’efficacité du ou des principes d’épuration mis en oeuvre, la détermination du rendement intrinsèque en condition dynamique de ces systèmes et l’évaluation du gain apporté par ces derniers sur l’exposition des occupants. Les travaux menés avec les dispositifs épurateurs (filtration et photocatalyse) ont montré que les efficacités intrinsèques des systèmes ne permettent pas de préjuger de leur gain vis-à-vis du niveau de l’exposition des individus lorsqu’ils sont mis en oeuvre en environnement intérieur. Les résultats obtenus ont également mis en évidence que la prise en compte des flux aérauliques et du transport des particules induit par la ventilation et le dispositif épurateur est indispensable à la définition d’une stratégie cohérente de traitement d’air / Exposure to bioaerosols in indoor environments is associated with a wide range of adverse effects on health including infectious diseases, acute toxic effects and allergies. In order to guard against this phenomenon, the ventilation and air treatment industry has developed and marketed many air control strategies. However, at present, there is no methodology adapted to the evaluation of the relevance of these strategies. The aim of this research work was to characterize, in a first time, the progress of microbiological aerosol from the original source, to their eventual inhalation by person exposed, considering their dissemination through the indoor environments. Secondly, the work consisted of determining the efficiency of air cleaner devices applied to control indoor air quality. For this point, a global approach of evaluation in 3 steps was adopted, consisting of studying the efficiency of the epuration principle implemented, determining the intrinsic performance of the systems in dynamic conditions and their impact on the exposure level of the exposed persons. The tests carried out with air cleaner devices (filtration and photocatalysis) have shown that the intrinsic performance wasn’t able to estimate the beneficial impact of these systems on the exposure level of people when there were applied in indoor environments. So the intrinsic performance of devices is not the single impact factor, the airflow promoted by the device is also a factor to consider. Moreover, the characterization of indoor airflows and airborne particles transport is essential to define a coherent strategy of air treatment Aérobiocontamination Environnements intérieurs Épuration Photocatalyse Phage MS2 Staphylococcus epidermidis Aerobiocontamination Indoor environment Microbiological air treatment Photocatalysis Bacterial and viral aerosol Phage MS2 S. epidermidis
4	Well-controlled and well-described SAMs-based platforms for the study of material-bacteria interactions occuring at the molecular scale Böhmler, Judith 11 September 2012 (has links) (PDF) Bacterial adhesion is the first step of biofilm formation and in the focus of research interest since several decades. Biofilms cause many problems, sometimes dramatic, for example in health, food packing or waste water purification. Despite of high interest, bacterial adhesion process is only poorly understood yet. In this work, bacterial adhesion was investigated on well-organized and structured model surfaces with various chemistries at molecular scale. For that purpose a characterization methodology was developed to sufficiently analyze monolayers on silicon wafers, and controlled mixed monolayers surfaces with different densities of NH 2 backfilled with CH3 were developed and optimized. These controlled surfaces with different densities of 0 % NH2 up to 100% NH2 were eventually used as tool to study bacterial adhesion in batch and real time conditions. The results demonstrate a significant impact on bacterial adhesion of weak difference in the surface chemistry at molecular scale. In the batch experiments, two so-called "plateaus" zones were determined, in which bacterial adhesion is not significantly different despite the change of the amine concentration on the surface. On the contrary, one transition zone exists between the "plateaus" in which a slight chunge.in the amine concentration leads to a significant increase / decrease of the bacterial adhesion. The same trend of bacteria behavior was observed for different bacterial strains. [CHIM:OTHE] Chemical Sciences/Other Silicon wafer XPS high resolution spectra SAM Mixed Monolayers E. coli SCCI S. epidermidis ATCC35984 Bacterial adhesion Real-time experiments
5	Obtenção de derivados semissintéticos triterpênicos do ácido ursólico visando atividade biológica Vieira, Laura Cardozo January 2013 (has links) As infecções por bactérias representam um grave problema hoje e para o futuro, devido ao fato de que estes microrganismos desenvolvem mecanismos de resistência aos antibióticos ao longo do tempo de uso. A formação de biofilmes também é um fator a ser discutido no cenário atual por estar associado a muitas infecções bacterianas humanas, principalmente àquelas envolvendo dispositivos médicos aumentando assim os riscos de infecções hospitalares. O ácido ursólico (AU) é um triterpeno conhecido por suas atividades biológicas relatadas. Apresenta moderada atividade antibacteriana, porém tem demonstrado importante citotoxicidade frente a algumas linhagens celulares. Em vista disso, neste trabalho se desenvolveu uma série de novas moléculas derivadas do AU com alterações nas posições C-3 e C-28. Quatro moléculas com substituição em C-3 (derivados 2, 3, 4e 5) e uma com substituição em C-3 e C-28 (derivado 6) foram comparadas ao AU (1) quanto a atividade antibacteriana. As cepas utilizadas foram Salmonela Typhimurium, Escherichia coli, Pseudomonas aeruginosa, Acinetobacter baumannii, Proteus mirabilis, Staphylococcus epidermidis e Staphylococcus aureus. Os compostos 3 e 6 apresentaram melhor perfil inibitório de forma geral, onde 3 apresentouse bactericida para S. aureus e S. epidermidis (Gram positivas) e paraP. mirabilis (Gram negativa) apresentou-se bacteriostático. / The ursolic acid (UA) is a triterpene known for their biological activities reported. Thus, become useful techniques semi-synthesis starting from natural products extracted, for example residue industries in order to improve the pharmacological properties decreasing toxicity. The bacterial infections are a serious problem today and in the future due to the fact that these organisms develop resistance mechanisms to antibiotics over time of use. The formation of biofilms is also a factor to be discussed in the current scenario because of being responsible for a very high number of rejections and other prosthetic devices by increasing the risk of nosocomial infections. The AU has a moderate antibacterial activity reported in the literature, but showed significant cytotoxicity against some cell lines. In view of this it developed a series of new molecules derived from AU residues extracted from apples (Mallus domestica) from the juice industry by promoting the so-called green chemistry. The molecules undergo changes in C-3 and C-28. Four molecules with substitution at C-3 (derived from 2, 3, 4 and 5) and one with substitution at C-3 and C-28 (derived 6) were compared with au (1). The strains used in the tests of Minimum Inhibitory Concentration (MIC) and Minimum Bactericidal Concentration were Salmonella Typhimurium, Escherichia coli, Pseudomonas aeruginosa, Acinetobacter baumannii, Proteus mirabilis, Staphylococcus epidermidis and Staphylococcus aureus. Compounds 3 and 6 had better inhibitory profile in general, where three presented bactericidal to S. aureus and S. epidermidis (Gram positive) and P. mirabilis (Gram negative) appeared bacteriostatic. Ácido ursólico Triterpenos Atividade antibacteriana Atividade antibiofilme Microbiologia Sintese organica Ursolic acid Semi-synthesis Bacterial infections Triterpenes S. aureus S. epidermidis P. mirabilis S. typhimurium E. coli P. aeruginosa A. baumannii
6	Obtenção de derivados semissintéticos triterpênicos do ácido ursólico visando atividade biológica Vieira, Laura Cardozo January 2013 (has links) As infecções por bactérias representam um grave problema hoje e para o futuro, devido ao fato de que estes microrganismos desenvolvem mecanismos de resistência aos antibióticos ao longo do tempo de uso. A formação de biofilmes também é um fator a ser discutido no cenário atual por estar associado a muitas infecções bacterianas humanas, principalmente àquelas envolvendo dispositivos médicos aumentando assim os riscos de infecções hospitalares. O ácido ursólico (AU) é um triterpeno conhecido por suas atividades biológicas relatadas. Apresenta moderada atividade antibacteriana, porém tem demonstrado importante citotoxicidade frente a algumas linhagens celulares. Em vista disso, neste trabalho se desenvolveu uma série de novas moléculas derivadas do AU com alterações nas posições C-3 e C-28. Quatro moléculas com substituição em C-3 (derivados 2, 3, 4e 5) e uma com substituição em C-3 e C-28 (derivado 6) foram comparadas ao AU (1) quanto a atividade antibacteriana. As cepas utilizadas foram Salmonela Typhimurium, Escherichia coli, Pseudomonas aeruginosa, Acinetobacter baumannii, Proteus mirabilis, Staphylococcus epidermidis e Staphylococcus aureus. Os compostos 3 e 6 apresentaram melhor perfil inibitório de forma geral, onde 3 apresentouse bactericida para S. aureus e S. epidermidis (Gram positivas) e paraP. mirabilis (Gram negativa) apresentou-se bacteriostático. / The ursolic acid (UA) is a triterpene known for their biological activities reported. Thus, become useful techniques semi-synthesis starting from natural products extracted, for example residue industries in order to improve the pharmacological properties decreasing toxicity. The bacterial infections are a serious problem today and in the future due to the fact that these organisms develop resistance mechanisms to antibiotics over time of use. The formation of biofilms is also a factor to be discussed in the current scenario because of being responsible for a very high number of rejections and other prosthetic devices by increasing the risk of nosocomial infections. The AU has a moderate antibacterial activity reported in the literature, but showed significant cytotoxicity against some cell lines. In view of this it developed a series of new molecules derived from AU residues extracted from apples (Mallus domestica) from the juice industry by promoting the so-called green chemistry. The molecules undergo changes in C-3 and C-28. Four molecules with substitution at C-3 (derived from 2, 3, 4 and 5) and one with substitution at C-3 and C-28 (derived 6) were compared with au (1). The strains used in the tests of Minimum Inhibitory Concentration (MIC) and Minimum Bactericidal Concentration were Salmonella Typhimurium, Escherichia coli, Pseudomonas aeruginosa, Acinetobacter baumannii, Proteus mirabilis, Staphylococcus epidermidis and Staphylococcus aureus. Compounds 3 and 6 had better inhibitory profile in general, where three presented bactericidal to S. aureus and S. epidermidis (Gram positive) and P. mirabilis (Gram negative) appeared bacteriostatic. Ácido ursólico Triterpenos Atividade antibacteriana Atividade antibiofilme Microbiologia Sintese organica Ursolic acid Semi-synthesis Bacterial infections Triterpenes S. aureus S. epidermidis P. mirabilis S. typhimurium E. coli P. aeruginosa A. baumannii
7	Obtenção de derivados semissintéticos triterpênicos do ácido ursólico visando atividade biológica Vieira, Laura Cardozo January 2013 (has links) As infecções por bactérias representam um grave problema hoje e para o futuro, devido ao fato de que estes microrganismos desenvolvem mecanismos de resistência aos antibióticos ao longo do tempo de uso. A formação de biofilmes também é um fator a ser discutido no cenário atual por estar associado a muitas infecções bacterianas humanas, principalmente àquelas envolvendo dispositivos médicos aumentando assim os riscos de infecções hospitalares. O ácido ursólico (AU) é um triterpeno conhecido por suas atividades biológicas relatadas. Apresenta moderada atividade antibacteriana, porém tem demonstrado importante citotoxicidade frente a algumas linhagens celulares. Em vista disso, neste trabalho se desenvolveu uma série de novas moléculas derivadas do AU com alterações nas posições C-3 e C-28. Quatro moléculas com substituição em C-3 (derivados 2, 3, 4e 5) e uma com substituição em C-3 e C-28 (derivado 6) foram comparadas ao AU (1) quanto a atividade antibacteriana. As cepas utilizadas foram Salmonela Typhimurium, Escherichia coli, Pseudomonas aeruginosa, Acinetobacter baumannii, Proteus mirabilis, Staphylococcus epidermidis e Staphylococcus aureus. Os compostos 3 e 6 apresentaram melhor perfil inibitório de forma geral, onde 3 apresentouse bactericida para S. aureus e S. epidermidis (Gram positivas) e paraP. mirabilis (Gram negativa) apresentou-se bacteriostático. / The ursolic acid (UA) is a triterpene known for their biological activities reported. Thus, become useful techniques semi-synthesis starting from natural products extracted, for example residue industries in order to improve the pharmacological properties decreasing toxicity. The bacterial infections are a serious problem today and in the future due to the fact that these organisms develop resistance mechanisms to antibiotics over time of use. The formation of biofilms is also a factor to be discussed in the current scenario because of being responsible for a very high number of rejections and other prosthetic devices by increasing the risk of nosocomial infections. The AU has a moderate antibacterial activity reported in the literature, but showed significant cytotoxicity against some cell lines. In view of this it developed a series of new molecules derived from AU residues extracted from apples (Mallus domestica) from the juice industry by promoting the so-called green chemistry. The molecules undergo changes in C-3 and C-28. Four molecules with substitution at C-3 (derived from 2, 3, 4 and 5) and one with substitution at C-3 and C-28 (derived 6) were compared with au (1). The strains used in the tests of Minimum Inhibitory Concentration (MIC) and Minimum Bactericidal Concentration were Salmonella Typhimurium, Escherichia coli, Pseudomonas aeruginosa, Acinetobacter baumannii, Proteus mirabilis, Staphylococcus epidermidis and Staphylococcus aureus. Compounds 3 and 6 had better inhibitory profile in general, where three presented bactericidal to S. aureus and S. epidermidis (Gram positive) and P. mirabilis (Gram negative) appeared bacteriostatic. Ácido ursólico Triterpenos Atividade antibacteriana Atividade antibiofilme Microbiologia Sintese organica Ursolic acid Semi-synthesis Bacterial infections Triterpenes S. aureus S. epidermidis P. mirabilis S. typhimurium E. coli P. aeruginosa A. baumannii

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