Global ETD Search

201	Non-linear magnetoconductivity of the two-dimensional electron fluid and solid on liquid helium Djerfi, Kheireddine January 1999 (has links) No description available. 530.41
202	Investigating the role of voltage-gated ion channels in pulsed electric field effects in excitable and non-excitable cell lines / Étude du rôle des canaux ioniques voltage-dépendants dans les effets de champs électriques pulsés dans les lignées cellulaires excitables et non-excitables Burke, Ryan 19 December 2017 (has links) L'utilisation de champs électriques pulsés (PEF) dans les secteurs de la médecine et de la biotechnologie est devenue de plus en plus courante au cours des dernières décennies. La recherche a montré qu'en ajustant la durée du PEF, nous pouvons prédire quels effets seront observés. Alors que les PEF dans la gamme micro - milliseconde ont été utilisés pour perméabiliser la membrane cellulaire et améliorer l'absorption de médicament ou de protéine, le PEF nanoseconde (nsPEF) a démontré des effets uniques sur les organites intracellulaires. Les deux PEF et nsPEF ont démontré un potentiel thérapeutique pour une variété de pathologies humaines, y compris le traitement du cancer. Utilisant l'imagerie des cellules vivantes, cette thèse a étudié in vitro les effets de champs pulsés d'une durée de 10 ns à 10 ms sur des lignées cancéreuses (U87 glioblastome multiforme) et non cancéreuses (neurones hippocampes de souris (HT22) et cellules ovariennes du hamster chinois (CHO)). Des résultats publiés antérieurement ont démontré que les cellules cancéreuses sont plus sensibles aux champs électriques que les cellules saines. Nos résultats sont en accord avec ces résultats, dans la mesure où les cellules U87 ont subi une dépolarisation significativement plus importante de leur potentiel transmembranaire après une seule impulsion électrique à toutes les durées. Dans un ensemble d'expériences parallèles, malgré des seuils de champ électrique similaires pour la perméabilisation membranaire, les cellules U87 ont démontré une absorption significativement améliorée de YO-PRO par rapport aux autres lignées cellulaires. Bien que les cellules U87 aient subi le plus grand changement dans la dépolarisation membranaire et la perméabilisation membranaire, elles ont également montré la constante de rescellement de la membrane la plus rapide, qui était environ 30 secondes plus rapide que les autres lignées cellulaires. Pour élucider certains des mécanismes sous-jacents par lesquels les cellules U87 répondent aux champs électriques, une série d'expériences a examiné le rôle des canaux ioniques transmembranaires. Plusieurs études récentes ont rapporté que les PEF peuvent agir directement sur les canaux ioniques voltage-dépendants. En utilisant divers modulateurs de canaux ioniques pharmacologiques spécifiques et à action large, nous avons démontré que nous pouvions presque entièrement inhiber la dépolarisation membranaire induite par le champ électrique dans les cellules U87 en bloquant certains canaux cationiques. Ces résultats étaient assez spécifiques, tels que le canal de potassium de grande conductance (BK), les canaux calciques de type L et T, et le canal cationique non spécifique, TRPM8, étaient capables d'inhiber la dépolarisation tandis que le blocage d'autres canaux ioniques ne produisait aucun changement significatif. . Les travaux de cette thèse ont montré que la lignée cellulaire maligne U87 présentait une plus grande sensibilité aux champs électriques allant de 10 ns à 10 ms par rapport aux lignées cellulaires non cancéreuses étudiées. Des améliorations potentielles aux protocoles de traitement actuels ont été proposées sur la base des résultats présentés ici. / The use of pulsed electric fields (PEF) in medical and biotechnology sectors has become increasingly prevalent over the last few decades. Research has shown that by adjusting the duration of the PEF we can predict what effects will be observed. Whereas PEF in the micro-to-millisecond range have been used to permeabilize the cell membrane and enhance drug or protein uptake, nanosecond PEF (nsPEF) have demonstrated unique effects on intracellular organelles. Both PEF and nsPEF have demonstrated therapeutic potential for a variety of human pathologies, including the treatment of cancer. Using live-cell imaging, this thesis investigated, in vitro, the effects of pulsed fields ranging in duration from 10 ns to 10 ms on cancerous (U87 glioblastoma multiforme) and non-cancerous cell lines (mouse hippocampal neurons (HT22) and Chinese hamster ovary (CHO) cells). Previously published results have demonstrated that cancerous cells have a greater sensitivity to applied electric fields than healthy cells do. Our results are in agreement with these findings, insofar as the U87 cells underwent a significantly greater depolarization of their transmembrane potential following a single electric pulse at all durations. In a parallel set of experiments, despite having similar electric field thresholds for membrane permeabilization, the U87 cells demonstrated significantly enhanced YO-PRO uptake compared to the other cells lines. Although U87 cells underwent the greatest change in both membrane depolarization and membrane permeabilization, they also showed the fastest membrane resealing constant, which was approximately 30 seconds faster than other cell lines. To elucidate some of the underlying mechanisms by which U87 cells respond to electric fields, a series of experiments looked at the role of transmembrane ion channels. Several recent studies have reported that PEFs can act directly on voltage-gated ion channels. Using a variety of specific and broad acting pharmacological ion channel modulators, we demonstrated that we could almost entirely inhibit the electric field-induced membrane depolarization in U87 cells by blocking certain cationic channels. These results were quite specific, such that the big conductance potassium (BK) channel, L- and T-type calcium channels, and the non-specific cationic channel, TRPM8, were able to inhibit depolarization while blocking other ion channels produced no significant change. The work in this thesis showed that the malignant U87 cell line showed a greater sensitivity to electric fields from ranging from 10 ns – 10 ms when compared to the non-cancerous cell lines that were investigated. Potential improvements to current treatment protocols have been proposed based on the findings presented herein. Champs électriques pulsés Canaux ioniques voltage-dépendants Électroperméabilisation Imagerie des cellules vivantes Glioblastome Potentiel transmembrane Pulsed electric fields Voltage-gated ion channels Electropermeabilisation Live-cell imaging Glioblastoma Transmembrane potential 610
203	Modeling Microbial Inactivation Subjected to Nonisothermal and Non-thermal Food Processing Technologies Gabriella Mendes Candido De Oliveira (7451486) 17 October 2019 (has links) <p>Modeling microbial inactivation has a great influence on the optimization, control and design of food processes. In the area of food safety, modeling is a valuable tool for characterizing survival curves and for supporting food safety decisions. The modeling of microbial behavior is based on the premise that the response of the microbial population to the environment factors is reproducible. And that from the past, it is possible to predict how these microorganisms would respond in other similar environments. Thus, the use of mathematical models has become an attractive and relevant tool in the food industry.</p> <p>This research provides tools to relate the inactivation of microorganisms of public health importance with processing conditions used in nonisothermal and non-thermal food processing technologies. Current models employ simple approaches that do not capture the realistic behavior of microbial inactivation. This oversight brings a number of fundamental and practical issues, such as excessive or insufficient processing, which can result in quality problems (when foods are over-processed) or safety problems (when foods are under-processed). Given these issues, there is an urgent need to develop reliable models that accurately describe the inactivation of dangerous microbial cells under more realistic processing conditions and that take into account the variability on microbial population, for instance their resistance to lethal agents. To address this urgency, this dissertation focused on mathematical models, combined mathematical tools with microbiological science to develop models that, by resembling realistic and practical processing conditions, can provide a better estimation of the efficacy of food processes. The objective of the approach is to relate the processing conditions to microbial inactivation. The development of the modeling approach went through all the phases of a modeling cycle from planning, data collection, formulation of the model approach according to the data analysis, and validation of the model under different conditions than those that the approach was developed.</p> <p>A non-linear ordinary differential equation was used to describe the inactivation curves with the hypothesis that the momentary inactivation rate is not constant and depends on the instantaneous processing conditions. The inactivation rate was related to key process parameters to describe the inactivation kinetics under more realistic processing conditions. From the solution of the non-linear ordinary differential equation and the optimization algorithm, safety inferences in the microbial response can be retrieved, such as the critical lethal variable that increases microbial inactivation. For example, for nonisothermal processes such as microwave heating, time-temperature profiles were modeled and incorporated into the inactivation rate equation. The critical temperature required to increase the microbial inactivation was obtained from the optimization analysis. For non-thermal processes, such as cold plasma, the time-varying concentration of reactive gas species was incorporated into the inactivation rate equation. The approach allowed the estimation of the critical gas concentration above which microbial inactivation becomes effective. For Pulsed Electric Fields (PEF), the energy density is the integral parameter that groups the wide range of parameters of the PEF process, such as the electric field strength, the treatment time and the electrical conductivity of the sample. The literature has shown that all of these parameters impact microbial inactivation. It has been hyphothesized that the inactivation rate is a function of the energy density and that above a threshold value significant microbial inactivation begins. </p> <p>The differential equation was solved numerically using the Runge-Kutta method (<i>ode45</i> in MATLAB ®). The<i> lsqcurvefit</i> function in MATLAB ® estimated the kinetic parameters. The approach to model microbial inactivation, whether when samples were subjected to nonisothermal or to non-thermal food processes, was validated using data published in the literature and/or in other samples and treatment conditions. The modeling approaches developed by this dissertation are expected to assist the food industry in the development and validation process to achieve the level of microbial reduction required by regulatory agencies. In addition, it is expected to assist the food industry in managing food safety systems through support food safety decision-making, such as the designation of the minimal critical parameter that may increase microbial inactivation. Finally, this dissertation will contribute in depth to the field of food safety and engineering, with the ultimate outcome of having a broad and highly positive impact on human health by ensuring the consumption of safe food products.</p> Food Engineering Food Packaging, Preservation and Safety Food Processing Bacillus subtilis; cold plasma; survival curve; Weibull model; spore inactivation; non-thermal technology Microwave, Escherichia coli O157:H7, Salmonella, mathematical modeling, Arrhenius, log-logistic equation pulsed electric fields, validation energy density
204	Measuring the electric field of picosecond to nanosecond pulses with high spectral resolution and high temporal resolution Cohen, Jacob Arthur 08 October 2010 (has links) We demonstrate four experimentally simple methods for measuring very complex ultrashort light pulses. Although each method is comprised of only a few optical elements, they permit the measurement of extremely complex pulses with time-bandwidth products greater than 65,000. First, we demonstrate an extremely simple frequency-resolved-optical gating (GRENOUILLE) device for measuring the intensity and phase of pulses up to ~20ps in length. In order to achieve the required high spectral resolution and large temporal range, it uses a few-cm-thick second harmonic-generation crystal in the shape of a pentagon. This has the additional advantage of reducing the device's total number of components to three. Secondly, we introduce a variation of spectral interferometry (SI) using a virtually imaged phased array and grating spectrometer for measuring long complex ultrashort pulses up to 80 ps in length. Next, we introduce a SI technique for measuring the complete intensity and phase of relatively long and very complex ultrashort pulses. It involves making multiple measurements using SI (in its SEA TADPOLE variation) at numerous delays, measuring many temporal pulselets within the pulse, and concatenating the resulting pulselets. Its spectral resolution is the inverse delay range--many times higher than that of the spectrometer used. The waveforms were measured with ~ fs temporal resolution over a temporal range of ~ns and had time-bandwidth products exceeding 65,000, which to our knowledge is the largest time-bandwidth product ever measured with ~fs temporal resolution. Finally, we demonstrate a single-shot measurement technique that temporally interleaves hundreds of measurements with ~fs temporal resolution. It is another variation of SI for measuring the complete intensity and phase of relatively long and complex ultrashort pulses in a single shot. It uses a grating to introduce a transverse time delay into a reference pulse which gates the unknown pulse by interfering it at the image plane of an imaging spectrometer. It provided ~125 fs temporal resolution and a temporal range of 70 ps using a low-resolution spectrometer. Frequency-resolved optical gating Arbitrary waveforms Ultrashort pulse Second harmonic generation Nonlinear optics Chirped pulse amplification Chirped pulses Pulse measurement Ultrashort pulse measurement Nanosecond pulses Picosecond pulses Picosecond pulses Laser pulses, Ultrashort Electric fields
205	Measurement of the beta-neutrino correlation in laser trapped {sup 21}Na Scielzo, Nicholas David January 2003 (has links) Thesis (Ph.D.); Submitted to Univ. of California, Berkeley, CA (US); 1 Jun 2003. / Published through the Information Bridge: DOE Scientific and Technical Information. "LBNL--54350" Scielzo, Nicholas David. USDOE Director. Office of Science. Nuclear Physics (US) 06/01/2003. Report is also available in paper and microfiche from NTIS.
206	Electromagnetic Wave Propagation in Two-Dimensional Photonic Crystals Stavroula Foteinopoulou January 2003 (has links) Thesis (Ph.D.); Submitted to Iowa State Univ., Ames, IA (US); 12 Dec 2003. / Published through the Information Bridge: DOE Scientific and Technical Information. "IS-T 2048" Stavroula Foteinopoulou. 12/12/2003. Report is also available in paper and microfiche from NTIS.
207	Ion Acceleration from the Interaction of Ultra-Intense Lasers with Solid Foils Allen, M January 2004 (has links) Thesis (Ph.D.); Submitted to the Univ. of California, Berkeley, CA (US); 24 Nov 2004. / Published through the Information Bridge: DOE Scientific and Technical Information. "UCRL-TH-208645" Allen, M. 11/24/2004. Report is also available in paper and microfiche from NTIS.
208	Modélisation physique et numérique par la méthode des éléments finis de frontière de la distribution du potentiel et du champ électrique le long d'un isolateur standard de poste 735 KV recouvert de glace / Volat, Christophe, January 2002 (has links) Thèse (D.Eng.)-- Université du Québec à Chicoutimi, 2002. / Document électronique également accessible en format PDF. CaQCU
209	Correção fenotípica do nanismo avaliada por diferentes parâmetros de crescimento após administração de DNA plasmidial em modelo animal de deficiência isolada do hormônio do crescimento / Phenotypic correction of dwarfism mediated by different growth parameters after plasmid DNA administration in an animal model of isolated growth hormone deficiency HIGUTI, ELIZA 22 June 2016 (has links) Submitted by Claudinei Pracidelli (cpracide@ipen.br) on 2016-06-22T11:39:54Z No. of bitstreams: 0 / Made available in DSpace on 2016-06-22T11:39:54Z (GMT). No. of bitstreams: 0 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Tese (Doutorado em Tecnologia Nuclear) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP / FAPESP:11/21708-6 BIOTECHNOLOGY BIOLOGICAL REGENERATION GENETICS BIOLOGICAL REPAIR DNA REPAIR PLASMIDS HORMONES ENDOCRINE GLANDS PITUITARY GLAND ANIMAL GROWTH DISEASES IMMUNOTHERAPY ELECTRIC FIELDS TRANSFORMERS ANIMAL CELLS CELL CULTURES PERMEABILITY CELL MEMBRANES CELL CONSTITUENTS
210	Correção fenotípica do nanismo avaliada por diferentes parâmetros de crescimento após administração de DNA plasmidial em modelo animal de deficiência isolada do hormônio do crescimento / Phenotypic correction of dwarfism mediated by different growth parameters after plasmid DNA administration in an animal model of isolated growth hormone deficiency HIGUTI, ELIZA 22 June 2016 (has links) Submitted by Claudinei Pracidelli (cpracide@ipen.br) on 2016-06-22T11:39:54Z No. of bitstreams: 0 / Made available in DSpace on 2016-06-22T11:39:54Z (GMT). No. of bitstreams: 0 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / A deficiência de hormônio de crescimento (DGH) é a deficiência mais comum entre os hormônios pituitários. A terapia utilizada atualmente consiste de injeções diárias de hormônio de crescimento humano recombinante (r-hGH), entretanto esta terapia apresenta alguns inconvenientes, como a necessidade de frequentes injeções de r-hGH durante um longo período de vida, dependendo da severidade da deficiência, e o alto custo do hormônio, em razão dos dispendiosos processos de purificação. Uma alternativa ao tratamento padrão seria aquele no qual fossem evitados estes tipos de inconvenientes e o processo de liberação da proteína fosse sustentável, por um longo período e promovesse níveis normais e sustentáveis do fator de crescimento semelhante à insulina I (IGF-I), o principal mediador dos efeitos do GH. Uma alternativa é a terapia gênica in vivo, baseada na administração de DNA plasmidial em diversos órgãos/tecidos, seguida de eletroporação. É considerada uma metodologia bastante promissora e que tem sido alvo de vários estudos para diversos tipos de deficiências sistêmicas. Neste trabalho foram realizadas diversas administrações de um plasmídeo contendo o gene do hormônio de crescimento humano, nos músculos quadríceps exposto ou tibial anterior sem exposição, seguidas de eletroporação, em camundongos anões e imunodeficientes (lit/scid) com 40-80 dias de idade, na tentativa de obter uma correção fenotípica do nanismo, mediante a avaliação de parâmetros de crescimento. A administração deste plasmídeo no músculo tibial anterior, em camundongos com a idade inicial de 40 dias, foi capaz de proporcionar uma normalização dos níveis de mIGF-I, quando comparados aos dos camundongos não-deficientes de GH. Além disso, foram obtidos valores de catch-up dos parâmetros de crescimento longitudinal de 36-77%. Visando uma maior eficiência na expressão de GH, foram construídos plasmídeos parentais, e a partir destes, foram produzidos minicírculos de DNA com os promotores do CMV e Ubiquitina C e com os cDNAs de hGH e mGH. Estes minicírculos de DNA foram transfectados em células HEK 293 e foram até 2 vezes mais eficientes em relação aos plasmídeos convencionais com o promotor do CMV. Estes dados são bastantes promissores e abrem caminho para ensaios mais eficientes, utilizando este tipo de protocolo de terapia gênica para a DGH, visando uma normalização de todos os parâmetros de crescimento. / Tese (Doutorado em Tecnologia Nuclear) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP / FAPESP:11/21708-6 biotechnology biological regeneration genetics biological repair dna repair plasmids hormones endocrine glands pituitary gland animal growth diseases immunotherapy electric fields transformers animal cells cell cultures permeability cell membranes cell constituents

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