Global ETD Search

91	L'invasion péri-nerveuse des carcinomes épidermoïdes cutanés humains / Perineural invasion in human cutaneous squamous cell carcinoma Brugière, Charlotte 04 May 2018 (has links) Le carcinome épidermoïde cutané (CEC) représente un enjeu important par sa fréquence et sa gravité potentielle.L’agressivité de ce cancer est liée à l’invasion péri-nerveuse (IPN), mode d’envahissement tumoral reconnu comme un facteur de mauvais pronostic.L’objectif de ce travail est de s’intéresser aux mécanismes favorisant l’IPN, en comparant 2 groupes appariés de CEC humains, avec et sans IPN.Pour cela nous avons réalisé une étude de facteurs et récepteurs neurotrophiques, de marqueurs de la transition épithélio-mésenchymateuse (TEM), et de la molécule NCAM1, par analyse immunohistochimique à partir de pièces chirurgicales de CEC et par analyse moléculaire en droplet digital PCR sur des cellules tumorales microdisséquées.L’analyse immunohistochimique a trouvé une forte expression de BDNF, TrkB, p75NGFR, Snail 1 et NCMA1 dans les cellules tumorales péri-nerveuses, contrastant avec une faible expression de ces marqueurs dans les cellules tumorales à distance du nerf. L’E-cadhérine était diminuée dans les cellules tumorales péri-nerveuses.L’analyse moléculaire en ddPCR montrait une diminution d’expression de l’E-cadhérine et une surexpression de BDNF, TrkB, p75NGFR, Snail1, Slug, Zeb2, Twist1 et NCAM1 dans les cellules tumorales péri-nerveuses par rapport aux cellules tumorales distantes du nerf.Nous avons démontré dans ce travail que l’invasion péri-nerveuse dans les CEC humains est liée aux neurotrophines, à la TEM et implique NCAM1. / Cutaneous squamous cell carcinoma (SCC) is an important issue because of its frequency and potential severity.The aggressiveness of this cancer is related to perineural invasion (PNI), a mode of tumor dissemination recognized as a poor prognosis factor.The aim of this work is to study the mechanisms of PNI, comparing 2 matched- groups of human SCC with and without PNI.For this, we studied neurotrophins, epithelial-mesenchymal transition (EMT) markers, and the NCAM1 molecule, by immunohistochemistry analysis on surgical pieces of SCC and by molecular analysis with digital-droplet PCR on laser-microdissected tumor cells.Immunohistochemistry analysis found strong expression of BDNF, TrkB, p75NGFR, Snail 1 and NCMA1 in perineural tumor cells, contrasting with weak expression of these markers in tumor cells distant from the nerves. E-cadherin was decreased in perineural tumor cells.Molecular analysis in ddPCR showed decreased expression for E-cadherin and overexpression of BDNF, TrkB, p75NGFR, Snail1, Slug, Zeb2, Twist1 and NCAM1 in perineural tumor cells compared to tumor cells distant from the nerves.We have demonstrated in this work that PNI in human SCC is linked to neurotrophins and EMT, and involves NCAM1. Droplet digital PCR Microdissection laser NCAM1 Digital droplet PCR Laser microdissection NCAM1
92	Deformation, Fragmentation and Vaporization of Volatile Liquid Droplets in Shock-Laden Environments Redding, Jeremy January 2020 (has links) No description available. Aerospace Materials shock-liquid interaction droplet vaporization volatile liquid fuel supersonic hypersonic droplet fragmentation
93	Using Lipid Bilayers in an Artificial Axon System Vanderwerker, Zachary Thomas 08 December 2013 (has links) Since the rise of multicellular organisms, nature has created a wide range of solutions for life on Earth. This diverse set of solutions presents a broad design space for a number of bio-inspired technologies in many different fields. Of particular interest for this work is the computational and processing power of neurons in the brain. Neuronal networks for transmitting and processing signals have advantages to their electronic counterparts in terms of power efficiency and the ability to handle component failure. In this thesis, an artificial axon system using droplet on hydrogel bilayers (DHBs) in conjunction with alamethicin channels was developed to show properties of action potential signal propagation that occur in myelinated nerve cells. The research demonstrates that the artificial axon system is capable of modifying signals that travel perpendicular to a lipid bilayer interface due to the voltage-gating properties of alamethicin within the connected bilayer. The system was used to show a signal boosting behavior similar to what occurs in the nodes of Ranvier of a myelinated axon. In addition, the artificial axon system was used to show that alamethicin channels within a lipid bilayer behave similarly to slow-acting potassium channels in a real axon in that they follow a sigmoid activation curve in response to a step potential change. / Master of Science Lipid bilayer droplet interface bilayer droplet on hydrogel bilayer (DHB) alamethicin artificial axon system
94	Droplet Dynamics of Aqueous Polymeric Solutions on Solid Surfaces Ariyo, Adeyemi Idowu 15 April 2009 (has links) No description available. Mechanical Engineering HEC HHR HEC QP DROPLET cpc DROPLET IMPACT QP
95	Variation de l’expression génique au cours de l’hibernation du hamster d’Europe : un rôle des récepteurs à la mélatonine ? / Gene expression profiling during hibernation in the European hamster : roles of melatonin receptors ? Gautier, Célia 16 April 2018 (has links) Afin de faire face aux conditions environnementales défavorables, certains animaux réduisent drastiquement leur activité métabolique et leur température grâce à des phases de torpeur hivernal. L’objectif de cette étude est d’établir une signature moléculaire de chacune des phases d’hibernation. Pour cela, les variations d’expression de 21 gènes impliqués dans le contrôle des fonctions saisonnières (horloge circadienne, hormones thyroïdiennes, récepteurs à la mélatonine) et le métabolisme ont été étudiées dans 8 organes. Les résultats ont mis en évidence une augmentation ubiquitaire de l’expression des gènes Périodes indiquant un possible réajustement de l’horloge au début de la phase de réveil. Ainsi qu’une régulation spécifique des déiodinases induisant une augmentation de la synthèse de thyroxine dans le tissu adipeux brun et l’hypothalamus pendant la torpeur et le réveil. Le récepteur MT2 du hamster d’Europe a été partiellement caractérisé génétiquement et pharmacologiquement. A la différence d’autres espèces de hamster dont le récepteur MT2 est tronqué, le récepteur étudié semble être fonctionnel pour la mélatonine et pourrait être critique durant l’hibernation. / Living in the wild involves to cope with a variable seasonal environment availability. When winter is coming, animals use various strategies to adapt to hostile environment by limiting energy expenditure such as hibernation. In this study, expression of 21 selected genes was compared at different states of the hibernation cycle of the true hibernator European hamster. Level of mRNA encoding proteins involved in seasonal timing (melatonin receptors, thyroid metabolism, clock) and energy homeostasis were measured by digital droplet PCR in eight central and peripheral organs. During the arousal phase, Periods genes expression is increased in all organs indicating a possible resetting of body’s clocks at the beginning of the active period. The brown adipose tissue displays a specific regulation of deiodinases leading to increased synthesis of thyroxine during both torpor and arousal. The melatonin receptor MT2 of the European hamster had been partially cloned and pharmacologically characterized. While in most hamster species, MT2 is a natural knock out, the studied receptor seems to be functional and could be critical during hibernation. Variation expression génique Digital droplet PCR Hibernation Cricetus cricetus Récepteurs mélatonine Gene expression Digital droplet PCR Cricetus cricetus Digital droplet PCR Melatonin receptors 572.8 591.56
96	Coupled electrical and acoustic modeling of viscous fluid ejectors Loney, Drew Allan 07 January 2016 (has links) The focus of this dissertation is the development of a fundamental understanding of the acoustics and piezoelectric transducer governing the operation of piezoelectric inkjets and horn-based ultrasonic atomizers when utilizing high viscosity working fluids. This work creates coupled, electro-mechanical analytical models of the acoustic behavior of these devices by extending models from the literature which make minimal simplifications in the handling terms that account for viscous losses. Models are created for each component of the considered fluid ejectors: piezoelectric transducers, acoustic pipes, and acoustic horns. The acoustic pipe models consider the two limited cases when either the acoustic boundary layer or attenuation losses dominate the acoustic field and are adapted to account for changes in cross-sectional area present in acoustic horns. A full electro-mechanical analytical model of the fluid ejectors is formed by coupling the component models using appropriate boundary conditions. The developed electro-mechanical model is applied to understand the acoustic response of the fluid cavity alone and when combined with the transducer in horn-based ultrasonic atomizers. An understanding of the individual and combined acoustic response of the fluid cavity and piezoelectric transducer allow for an optimal geometry to be selected for the ejection of high viscosity working fluids. The maximum pressure gradient magnitude produced by the atomizer is compared to the pressure gradient threshold required for fluid ejection predicted by a hydrodynamic scaling analysis. The maximum working fluid viscosity of the standard horn-based ultrasonic atomizer and those with dual working fluid combinations, a low viscosity and a high viscosity working fluid to minimize viscous dissipation, is established to be on the order of 100mPas. The developed electro-mechanical model is also applied to understand the acoustic response of the fluid cavity and annular piezoelectric transducer in squeeze type ejectors with high viscosity working fluids. The maximum pressure gradient generated by the ejector is examined as a function of the principle geometric properties. The maximum pressure gradient magnitude produced by the ejector is again compared to the pressure gradient threshold derived from hydrodynamic scaling. The upper limit on working fluid viscosity is established as 100 mPas. Inkjet Viscosity Horn-based ultrasonic atomizer Droplet Ultrasonic Jetting Acoustic
97	Compound droplets for lab-on-a-chip Black, James Aaron 27 May 2016 (has links) The development of a novel method of droplet levitation to be employed in lab-on-a-chip (LOC) applications relies upon the mechanism of thermocapillary convection (due to the temperature dependence of surface tension) to drive a layer of lubricating gas between droplet and substrate. The fact that most droplets of interest in LOC applications are aqueous in nature, coupled with the fact that success in effecting thermocapillary transport in aqueous solutions has been limited, has led to the development of a technique for the controlled encapsulation of water droplets within a shell of inert silicone oil. These droplets can then be transported, virtually frictionlessly, resulting in ease of transport due to the lack of friction as well as improvements in sample cross-contamination prevention for multiple-use chips. Previous reports suggest that levitation of spherical O(nL)-volume droplets requires squeezing to increase the apparent contact area over which the pressure in the lubricating layer can act allowing sufficient opposition to gravity. This research explores thermocapillary levitation and translation of O(nL)-volume single-phase oil droplets; generation, capture, levitation, and translation of O(nL)-volume oil-encapsulated water droplets to demonstrate the benefits and applicability to LOC operations. Microfluidics Droplet generation lab on a chip Lab on a chip Thermocapillarity
98	Study on lipid droplet dynamics in live cells and fluidity changes in model bacterial membranes using optical microscopy techniques Wong, Christine Shiang Yee January 2014 (has links) In this thesis optical microscopy techniques are used to consider aspects of viral and bacterial infections. In part 1, the physical effects of cytomegalovirus on lipid droplet dynamics in live cells are studied; in part 2, the effects of an antimicrobial peptide on the fluidity of model bacterial membranes are studied. The optical microscopy techniques used to study the effects of murine-cytomegalovirus (mCMV) on lipid droplets in live NIH/3T3 fibroblast cells in real-time are coherent anti- Stokes Raman scattering (CARS), two-photon fluorescence (TPF) and differential interference contrast (DIC) microscopies. Using a multimodal CARS and TPF imaging system, the infection process was monitored by imaging the TPF signal caused by a green fluorescent protein (GFP)-expressing strain of mCMV, where the amount of TPF detected allowed distinct stages of infection to be identified. Meanwhile, changes to lipid droplet configuration were observed using CARS microscopy. Quantitative analysis of lipid droplet numbers and size distributions were obtained from live cells, which showed significant perturbations as the infection progressed. The CARS and TPF images were acquired simultaneously and the experimental design allowed incorporation of an environmental control chamber to maintain cell viability. Photodamage to the live cell population was also assessed, which indicated that alternative imaging methods must be adopted to study a single cell over longer periods of time. To this end, DIC microscopy was used to study the lipid droplet dynamics, allowing lipid droplet motion to be tracked during infection. In this way, the effects of viral infection on the mobility and arrangement of the lipid droplets were analysed and quantified. It was found that the diffusion coefficient of the lipid droplets undergoing diffusive motion increased, and the droplets undergoing directed motion tended to move at greater speeds as the infection progressed. In addition, the droplets were found to accumulate and cluster in infected cells. The second part of this thesis presents a study on the effects of an antimicrobial peptide on model bacterial membranes. Giant unilamellar vesicles (GUVs) were produced as a simple model of E. Coli membrane using a 3:1 mixture of DPPC and POPG lipids. Incorporating Laurdan fluorescent dye into the lipid membrane of the GUVs allowed the membrane fluidity to be probed and visualised using TPF microscopy, whereby the fluidity was quantified by determining the general polarization (GP) values. Studying GUVs comprising single lipid and mixed lipid compositions over a temperature range from 25 C to 55 C enabled the lipid phase bands to be identified on the basis of GP value as gel phase and liquid crystalline phase. As such, the changes in lipid phase as a result of interaction with AMP were quantified, and phase domains were identified. It was found that the amount of liquid crystalline phase domains increased significantly as a result of AMP interaction. 502.8
99	Liquid distribution in a rotating packed bed Burns, John Robert January 1996 (has links) No description available. 660
100	Phosphatidylcholine Metabolism and ACAT Affect the Trafficking of LDL-derived Free Cholesterol in Cholesterol-loaded CHO Cells Landry, Chandra 17 July 2012 (has links) In vitro studies have shown that the major membrane phospholipid phosphatidylcholine (PC) can positively influence the incorporation of cholesterol in lipid membranes. The influence of PC on the cellular trafficking of LDL-derived free cholesterol was investigated. Sterol regulatory-defective (SRD)-4 cells are Chinese hamster ovary (CHO)-derived fibroblasts that display vastly elevated rates for the synthesis and catabolism of PC. SRD-4 cells harbor two known gene mutations: a mutation in the functional allele for SCAP, resulting in defective feedback suppression of cholesterol biosynthesis; and a loss-of-function mutation in the functional allele for acyl-CoA:cholesterol acyl transferase (ACAT), an endoplasmic reticulum (ER)-localized enzyme that esterifies free cholesterol. Incubation of SRD-4 cells with 50 µg/ml low density lipoprotein (LDL) for 18 h resulted in lysosomal accumulation of free cholesterol as revealed by filipin staining. This accumulation was not evident following LDL treatment of parental CHO7 cells, and was blunted in SRD-2 cells that express a constitutively-active form of SREBP-2 and overproduce cholesterol but have functional ACAT activity. Treatment of SRD-2 cells with LDL in the presence of an ACAT inhibitor 58-035 resulted in robust lysosomal cholesterol accumulation that was reversible upon drug washout, supporting that cholesterol trafficking in cholesterol-loaded cells is dependent on ACAT activity and, more specifically, ER free cholesterol levels. Lysosomal accumulation of LDL-derived cholesterol was prevented in SRD-4 cells supplemented with lyso-PC (50 µM), a substrate for PC synthesis through the reacylation pathway, and also in cells treated with bromoenol lactone (BEL), an inhibitor of phospholipase A2 implicated in bulk PC turnover. In a counter study, lysosomal LDL-derived cholesterol accumulation was induced in parental CHO-7 cells using R-propranolol, which inhibits the conversion of phosphatidic acid to diacylglycerol (DAG), a substrate in the CDP-choline pathway. This blockage was also relieved through co-treatment with lyso-PC. These studies support that PC to free cholesterol ratios in downstream organellar membranes can influence cholesterol trafficking out of lysosomal compartments in cholesterol-loaded cells. Cholesterol Filipin NPC1 LDLR Phosphatitylcholine Lysosomal Loading Lipid Droplet

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