Global ETD Search

31	A shear bond strength, microleakage and laser microscopic study of two dental compomers. Moodley, Desi January 1999 (has links) Magister Chirurgiae Dentium (MChD) / Purpose: To evaluate and compare the in-vitro shear bond strength and micro leakage of two compomers with their adhesive systems and to examine the dentine-restorative interface under confocal scanning laser microscopy (CSLM). Matoiats and Methods: For shear bond strength (SBS) testing thirty non-carious human molars were used of which fifteen molars were restored with Dyract AP using Non-Rinse Conditioner (NRC) and Prime&Bond NT (PBNT) and fifteen were restored with F2000 and Scotchbond Multi-Purpose Plus (SBMP). For the microleakage evaluation cavity preparations were made on the facial surfaces of thirty non-carious premolars. These were then restored with the respective compomer system. The specimens were thermocycled, sectioned and examined for dye penetration. The dentine-restorative interface was examined through a confocal scanning laser microscope. The primers of the bonding agents were labelled with rhodamine B and the adhesive resins were labelled with fluorescein and examined under CSLM in fluorescent mode. Results: The mean SBS for PBNT and SBMP were 12.8 and 18.1 MPa, respectively. The microleakage scores showed Dyract with PBNT leaked on the dentine side in 13 of the 15 specimens examined. On the enamel side 2 of the 15 specimens showed microleakage. With F2000 and SBMP no micro leakage was observed on either enamel or dentine sides. The CSLM images show clear resin tag and hybrid layer formation for both the materials examined, although SBMP showed deeper penetration into the dentine with longer resin tags. The length of the resin tags and thickness of the hybrid layer for PBNT was found to be approximately 10 um and 2 um respectively. SBMP showed resin tags measuring about 100 um while the hybrid layer measured about 5 um. Conclusion: This study demonstrates that the acid-etch technique ofSBMP with F2000 produces higher bond strength and no micro leakage when compared to the self-etching/self-priming "non-rinse technique" of NRC with PBNT and Dyract. Thermocycled Microleakage Scotchbond Multi- Purpose Plus (SBMP) Non-Rinse Conditioner (NRC) Shear bond strength (SBS) In-vitro Prime&Bond NT (PBNT)
32	Development of a Closed-loop Resonant Fatigue Testing Methodology and Experimental Life Test of Aluminum Alloy Abdullah, A.B.M. 13 December 2010 (has links) No description available. Engineering High-cycle fatigue Vibration-based testing Scanning laser vibrometer Shaker controller Closed-loop testing Bending fatigue Experimental fatigue testing Resonant fatigue
33	Analysis and feedback control of the scanning laser epitaxy process applied to nickel-base superalloys Bansal, Rohan 08 April 2013 (has links) Scanning Laser Epitaxy (SLE) is a new layer-by-layer additive manufacturing process being developed in the Direct Digital Manufacturing Laboratory at Georgia Tech. SLE allows for the fabrication of three-dimensional objects with specified microstructure through the controlled melting and re-solidification of a metal powder placed atop a base substrate. This dissertation discusses the work done to date on assessing the feasibility of using SLE to both repair single crystal (SX) turbine airfoils and manufacture functionally graded turbine components. Current processes such as selective laser melting (SLM) are not able to create structures with defined microstructure and often have issues with warping of underlying layers due to the high temperature gradients present when scanning a high power laser beam. Additionally, other methods of repair and buildup have typically been plagued by crack formation, equiaxed grains, stray grains, and grain multiplication that can occur when dendrite arms are separated from their main dendrites due to remelting. In this work, it is shown that the SLE process is capable of creating fully dense, crack-free equiaxed, directionally-solidified, and SX structures. The SLE process, though, is found to be currently constrained by the cumbersome method of choosing proper parameters and a relative lack of repeatability. Therefore, it is hypothesized that a real-time feedback control scheme based upon a robust offline model will be necessary both to create specified defect-free microstructures and to improve the repeatability of the process enough to allow for multi-layer growth. The proposed control schemes are based upon temperature data feedback provided at high frame rate by a thermal imaging camera. This data is used in both PID and model reference adaptive control (MRAC) schemes and drives the melt pool temperature during processing towards a reference melt pool temperature that has been found to give a desired microstructure in the robust offline model of the process. The real-time control schemes will enable the ground breaking capabilities of the SLE process to create engine-ready net shape turbine components from raw powder material. René-80 CMSX-4 Nickel-base superalloys Single crystal SX Turbine engine repair Directionally-solidified DS Equiaxed One-step-ahead adaptive control Mar-M247 Scanning laser epitaxy SLE Welding Epitaxy Heat resistant alloys Nickel alloys Microstructure
34	Une nouvelle méthode de détection du glaucome par la mesure de l'asymétrie interoculaire : l’asymétrie du rapport de la surface neurorétinienne sur la surface du disque optique ou rim area to disc area asymmetry ratio (RADAAR) Kamdeu Fansi, Alvine A. 11 1900 (has links) Cette thèse constitue à la fois un apport de nature clinique et technologique dans l’approche diagnostique du glaucome. Plus précisément, nous nous proposons d’étudier une nouvelle façon de détecter le glaucome par la mesure de l’asymétrie du rapport de la surface de l’anneau neurorétinien et de la surface de la papille ou du disque optique ou rim to disc area asymmetry ratio (RADAAR). Pour atteindre cet objectif, nous avons recours à une base de données composée d’une population subdivisée en 4 différents groupes de diagnostic (normal, glaucome possible, glaucome probable et glaucome définitif). Les mesures du RADAAR sont calculées de différentes façons à partir des paramètres stéréométriques de la tête du nerf optique des sujets, produits par la microscopie confocale à balayage laser (Heidelberg Retina Tomograph (HRT) (Heidelberg Engineering, Germany)). Nous procédons à une analyse de données grâce au logiciel SPSS où nous mettons en exergue la distribution du RADAAR dans les différentes populations, sa validité et son utilité dans le dépistage du glaucome. Nous enrôlons donc 523 sujets dans cette étude avec 82 sujets atteints de glaucome définitif. La moyenne d’âge est de 62 ans. Il y a plus de femmes que d’hommes et plus de Caucasiens que d’Africains Caribéens. Nous trouvons que la distribution de la mesure du RADAAR est différente des sujets d’un groupe de diagnostic à l’autre. En termes de performance, la sensibilité de la mesure du RADAAR est très basse c'est-à-dire que sa capacité de détecter la maladie est basse. En revanche la mesure du RADAAR est plus spécifique c'est-à-dire que sa capacité d’identifier les sujets exempts de la maladie est plus grande. Elle tendrait à être aussi plus performante chez les Africains Caribéens que chez les Caucasiens. De même, elle serait plus sensible chez les hommes que chez les femmes. La mesure du RADAAR est utile si on l’associe à une autre méthode de diagnostic comme l’analyse de Régression de Moorfields (MRA) incluse dans le logiciel du HRT3 spécialement lors de la détection du glaucome dans la population à haut risque. En définitive, nous déterminons que la mesure du RADAAR se veut un outil d’aide au diagnostic. Elle est particulièrement intéressante dans le contexte de dépistage de glaucome. / This thesis describes a new clinical and technological approach to the diagnosis of glaucoma. Specifically, we intend to study a new way to detect glaucoma by measuring rim area to disc area asymmetry ratio (RADAAR). For this purpose, we use a database consisting of a population divided into 4 different diagnostic groups (normal, possible glaucoma, probable glaucoma and definitive glaucoma). The RADAAR measurements are calculated in different ways based on the stereometric parameters of the optic nerve head of subjects, produced by confocal scanning laser ophthalmoscopy (Heidelberg Retina Tomograph (HRT) (Heidelberg Engineering, Germany)). We conduct an analysis of data with SPSS or we put forward the RADAAR distribution in different populations, its validity in detecting open angle glaucoma and its usefulness in screening for glaucoma. We therefore enroll 523 subjects in this study with about 82 subjects with definitive glaucoma. The average age is 62 years. There are more females than males and more Caucasians than Africans Caraibeans. We find that the distribution of RADAAR measures is different in each diagnosis group. In terms of performance, the sensitivity of the RADAAR measurement is very low. So, its ability to detect the disease is low. However the RADAAR measure is much more specific so, its ability to identify subjects free of the disease is high. RADAAR measure would also be much more effective in African Caribbean’s than in Caucasians. Similarly, it would be much more sensitive in males than in females. The RADAAR measurement is useful if it is combined with another method of diagnosis like the Moorfields regression analysis (MRA) included in the HRT3 software especially in case of the detection of glaucoma in populations at high risk. Ultimately, we determine that the RADAAR is an interesting tool for the diagnosis of glaucoma particularly in the context of screening for glaucoma. Glaucome à angle ouvert Tête du nerf optique RADAAR MRA Dépistage Open angle glaucoma Optic nerve head RADAAR MRA Screening
35	Application of Raman and Fluorescence Spectroscopy to Single Chromatographic Beads Larsson, Mina January 2005 (has links) <p>Chromatography is a powerful technique, essential in chemical analyses and preparative separation in industry and research. Many different kinds of chromatographic material are needed, due to the large variety of applications. Detailed methods of characterisation are needed to design new chromatographic materials and understand their properties. In this thesis, confocal Raman spectroscopy and surface enhanced Raman spectroscopy (SERS) have been applied to micrometer-size chromatographic beads, for which these techniques have not been used earlier. New methodology, optimized for use with the chromatographic beads, has been developed and evaluated. </p><p>Confocal spectroscopy has been used to determine distributions of functional groups within single chromatographic beads. This distribution is of great importance in determining the chromatographic properties, since the material is porous and the solute molecules can diffuse inside the beads. Most of the confocal experiments have been performed with Raman spectroscopy; fluorescence spectroscopy, using Nd<sup>3+</sup> ions or dye-labelled proteins as fluorescence probes, has been used for comparison. </p><p>The concentration of adsorbed analytes is very low within the beads. SERS was therefore used to enhance the Raman signal. SERS-active surfaces were prepared by incorporating gold nano-particles into the interior of the bead. TEM measurements showed that the gold nano-particles could be observed throughout, and it was possible to record analyte spectra from different positions within the bead. Enhanced spectra could be obtained both for small test molecules and for larger bio-molecules, although the spectra for the smaller analytes were much more intense.</p> Chemistry agarose chelating group confocal Raman spectroscopy confocal scanning laser microscopy gold nanoparticles ligand distribution functional group neodymium polymer beads Raman SERS surface-enhanced Raman spectroscopy Kemi Chemistry Kemi
36	Application of Raman and Fluorescence Spectroscopy to Single Chromatographic Beads Larsson, Mina January 2005 (has links) Chromatography is a powerful technique, essential in chemical analyses and preparative separation in industry and research. Many different kinds of chromatographic material are needed, due to the large variety of applications. Detailed methods of characterisation are needed to design new chromatographic materials and understand their properties. In this thesis, confocal Raman spectroscopy and surface enhanced Raman spectroscopy (SERS) have been applied to micrometer-size chromatographic beads, for which these techniques have not been used earlier. New methodology, optimized for use with the chromatographic beads, has been developed and evaluated. Confocal spectroscopy has been used to determine distributions of functional groups within single chromatographic beads. This distribution is of great importance in determining the chromatographic properties, since the material is porous and the solute molecules can diffuse inside the beads. Most of the confocal experiments have been performed with Raman spectroscopy; fluorescence spectroscopy, using Nd3+ ions or dye-labelled proteins as fluorescence probes, has been used for comparison. The concentration of adsorbed analytes is very low within the beads. SERS was therefore used to enhance the Raman signal. SERS-active surfaces were prepared by incorporating gold nano-particles into the interior of the bead. TEM measurements showed that the gold nano-particles could be observed throughout, and it was possible to record analyte spectra from different positions within the bead. Enhanced spectra could be obtained both for small test molecules and for larger bio-molecules, although the spectra for the smaller analytes were much more intense. Chemistry agarose chelating group confocal Raman spectroscopy confocal scanning laser microscopy gold nanoparticles ligand distribution functional group neodymium polymer beads Raman SERS surface-enhanced Raman spectroscopy Kemi Chemistry Kemi
37	Une nouvelle méthode de détection du glaucome par la mesure de l'asymétrie interoculaire : l’asymétrie du rapport de la surface neurorétinienne sur la surface du disque optique ou rim area to disc area asymmetry ratio (RADAAR) Kamdeu Fansi, Alvine A. 11 1900 (has links) Cette thèse constitue à la fois un apport de nature clinique et technologique dans l’approche diagnostique du glaucome. Plus précisément, nous nous proposons d’étudier une nouvelle façon de détecter le glaucome par la mesure de l’asymétrie du rapport de la surface de l’anneau neurorétinien et de la surface de la papille ou du disque optique ou rim to disc area asymmetry ratio (RADAAR). Pour atteindre cet objectif, nous avons recours à une base de données composée d’une population subdivisée en 4 différents groupes de diagnostic (normal, glaucome possible, glaucome probable et glaucome définitif). Les mesures du RADAAR sont calculées de différentes façons à partir des paramètres stéréométriques de la tête du nerf optique des sujets, produits par la microscopie confocale à balayage laser (Heidelberg Retina Tomograph (HRT) (Heidelberg Engineering, Germany)). Nous procédons à une analyse de données grâce au logiciel SPSS où nous mettons en exergue la distribution du RADAAR dans les différentes populations, sa validité et son utilité dans le dépistage du glaucome. Nous enrôlons donc 523 sujets dans cette étude avec 82 sujets atteints de glaucome définitif. La moyenne d’âge est de 62 ans. Il y a plus de femmes que d’hommes et plus de Caucasiens que d’Africains Caribéens. Nous trouvons que la distribution de la mesure du RADAAR est différente des sujets d’un groupe de diagnostic à l’autre. En termes de performance, la sensibilité de la mesure du RADAAR est très basse c'est-à-dire que sa capacité de détecter la maladie est basse. En revanche la mesure du RADAAR est plus spécifique c'est-à-dire que sa capacité d’identifier les sujets exempts de la maladie est plus grande. Elle tendrait à être aussi plus performante chez les Africains Caribéens que chez les Caucasiens. De même, elle serait plus sensible chez les hommes que chez les femmes. La mesure du RADAAR est utile si on l’associe à une autre méthode de diagnostic comme l’analyse de Régression de Moorfields (MRA) incluse dans le logiciel du HRT3 spécialement lors de la détection du glaucome dans la population à haut risque. En définitive, nous déterminons que la mesure du RADAAR se veut un outil d’aide au diagnostic. Elle est particulièrement intéressante dans le contexte de dépistage de glaucome. / This thesis describes a new clinical and technological approach to the diagnosis of glaucoma. Specifically, we intend to study a new way to detect glaucoma by measuring rim area to disc area asymmetry ratio (RADAAR). For this purpose, we use a database consisting of a population divided into 4 different diagnostic groups (normal, possible glaucoma, probable glaucoma and definitive glaucoma). The RADAAR measurements are calculated in different ways based on the stereometric parameters of the optic nerve head of subjects, produced by confocal scanning laser ophthalmoscopy (Heidelberg Retina Tomograph (HRT) (Heidelberg Engineering, Germany)). We conduct an analysis of data with SPSS or we put forward the RADAAR distribution in different populations, its validity in detecting open angle glaucoma and its usefulness in screening for glaucoma. We therefore enroll 523 subjects in this study with about 82 subjects with definitive glaucoma. The average age is 62 years. There are more females than males and more Caucasians than Africans Caraibeans. We find that the distribution of RADAAR measures is different in each diagnosis group. In terms of performance, the sensitivity of the RADAAR measurement is very low. So, its ability to detect the disease is low. However the RADAAR measure is much more specific so, its ability to identify subjects free of the disease is high. RADAAR measure would also be much more effective in African Caribbean’s than in Caucasians. Similarly, it would be much more sensitive in males than in females. The RADAAR measurement is useful if it is combined with another method of diagnosis like the Moorfields regression analysis (MRA) included in the HRT3 software especially in case of the detection of glaucoma in populations at high risk. Ultimately, we determine that the RADAAR is an interesting tool for the diagnosis of glaucoma particularly in the context of screening for glaucoma. Glaucome à angle ouvert Tête du nerf optique RADAAR MRA Dépistage Open angle glaucoma Optic nerve head RADAAR MRA Screening
38	Experimental Studies on Extremely Small Scale Vibrations of Micro-Scale Mechanical and Biological Structures Venkatesh, Kadbur Prabhakar Rao January 2017 (has links) (PDF) Experimental vibration analysis of mechanical structures is a well established field.Plenty of literature exists on macro scale structures in the fields of civil, mechanical and aerospace engineering, but the study of vibrations of micro scale structures such as MEMS, liquid droplets, and biological cells is relatively new. For such structures, the amplitudes of vibration are typically in nanometeror sub-nanometer range and the frequencies are in KHz to MHz range depending upon the dimensions of the structure. In our study, we use a scanningLaser Doppler Vibrometer (LDV) to measure the vibrations of micro-scale objects such as MEMS structures, micro droplets and cells. The vibrometercan capture frequency response up to 24 MHz withpicometer displacement resolution. First, we present the study of dynamics of a 2-D micromechanical structure—a MEMSelectrothermal actuator. The structure is realized using SOI MUMPs process from MEMSCAP. The fabricated device is tested for its dynamic performance characteristics using the LDV. In our experiments, we could capture up to 50 out-of-plane modes of vibration—an unprecedented capture—with a single excitation. Subsequent FEM based numerical simulations confirmed that the captured modes were indeed what the experiments indicated, and the measured frequencies werefound to be within 5% of theoretically predicted. Next, we study the dynamics of a 3-D micro droplet and show how the substrate adhesion modulates the natural frequency of the droplet. Adhesion properties of droplets are decided by the degree of wettability that is generally measured by the contact angle between the substrate and the droplet. In this work, we were able to capture 14 modes of vibration of a mercury droplet on different substrates and measure the correspondingfrequencies experimentally. We verify these frequencies with analytical calculations and find that all the measured frequencies are within 6% of theoretically predicted values. We also show that considering any two pairs of natural frequencies, we can calculate the surface tension and the contact angle, thus providing a new method for measuring adhesion of a droplet on an unknown surface. Lastly, we present a study of vibrations of biological cells.Our first study is that of single muscle fibers taken from drosophila.Muscle fibers with different pathological conditions were held in two structural configurations—asa fixed-fixed beam and a cantilever beam—and their vibration signatures analysed.We found that there was significant reduction in natural frequency of diseased fibers. Among the diseased fibers, we could confidently classify the myopathies into nemaline and cardiac types based on the natural frequency of single fibers. We have noticed that the elastic modulus of the muscle which decides the natural frequency is dictated by the myosin expression levels. Our last example isa study of the vibration signatures of cancer cells. Here we measure the natural frequencies of normal and certain cancerous cells, and show that we can distinguish the two based on their natural frequencies. We find that the natural frequency of cancerous cells is approximately half of that of normal cells. Within the cancerous cells, we are able to distinguished epithelial cancer cells and mesenchymal cancer cells based on their natural frequency values. For Epithelial cells,we activate the signaling pathways to induce EMT and notice the reduction in the natural frequency. This mechanical assay based on vibration response corroborates results from the biochemical assays such as Western blots and PCR, thus opening a new technique of mechano-diagnostics. Electrothermal Actuator Muscle Cell Vibration Signatures Vibration Based Myography Cells - Micromechanical Structures Vibration Analysis Sessile Droplets Scanning Laser Doppler Vibrometer (LDV) Cancer Cells - Vibration Signatures Muscle Dynamics Mechanical Engineering
39	Multimodální registrace obrazů sítnice / Multimodal retinal image registration Štohanzlová, Petra January 2011 (has links) This work deals with possibilities of registration of retinal images from different mo-dalities, concretely optical coherence tomography (OCT), scanning laser ophthalmoscopy (SLO) and fundus camera. In first stage is the interest focused on registration of SLO and fundus images, which will serve to determine area of interest for consecutive registration of OCT data. The final stage is finding correct location of OCT B-scans in fundus image. On the basis of the studied methods of registration was chosen method making use of computation of correlation coefficient for both cases. For finding optimal parameters of registration is used searching through whole space of parameters. In partial stages of the work was created algorithm for alignment of B-scans followed by detection of blood vessels and also simple algorithm for detection of blood vessels from fundus image. For more transparent registration the graphical user interface was created, which allows loading input images and displaying the result in several possible forms.
40	Localizing Structural and Functional Damage in the Neural Retina of Adolescents with Type 1 Diabetes Tan, Wylie 27 November 2012 (has links) Studies demonstrate neuro-retinal damage in patients with diabetes and no clinically visible diabetic retinopathy. It is unknown which retinal regions are most vulnerable to diabetes. We hypothesized that the standard and slow-flash (sf-) multifocal electroretinogram (mfERG) and adaptive optics (AO) imaging will localize retinal regions of vulnerability. Fifty-five adolescents with diabetes and 54 controls underwent mfERG testing to isolate predominately retinal bipolar cell activity and sf-mfERG testing to isolate three oscillatory potentials (OPs) from intraretinal amacrine and interplexiform cells. Greatest mfERG delays were in the superior temporal quadrant and at 5°-10° eccentricity. Greatest sf-mfERG delays were found at different eccentricities for each OP. Twenty adolescents with diabetes and 14 controls underwent AO imaging. No significant differences in cone photoreceptor density were found; however, patients showed a trend towards reduced density in the superior nasal region. Inner retinal structures may be more susceptible to damage by diabetes than outer retinal structures. Type 1 Diabetes adolescents diabetic retinopathy multifocal electroretinogram (mfERG) oscillatory potentials (OP) adaptive optics (AO) retinal imaging cone photoreceptor density scanning laser ophthalmoscope spatial mapping neural retina inner plexiform layer dysfunction localized damage vulnerability 0381

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