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11	Improving Treatment Dose Accuracy in Radiation Therapy Wong, Tony Po Yin, tony.wong@swedish.org January 2007 (has links) The thesis aims to improve treatment dose accuracy in brachytherapy using a high dose rate (HDR) Ir-192 stepping source and in external beam therapy using intensity modulated radiation therapy (IMRT). For HDR brachytherapy, this has been achieved by investigating dose errors in the near field and the transit dose of the HDR brachytherapy stepping source. For IMRT, this study investigates the volume effect of detectors in the dosimetry of small fields, and the clinical implementation and dosimetric verification of a 6MV photon beam for IMRT. For the study of dose errors in the near field of an HDR brachytherapy stepping source, the dose rate at point P at 0.25 cm in water from the transverse bisector of a straight catheter was calculated with Monte Carlo code MCNP 4.A. The Monte Carlo (MC) results were used to compare with the results calculated with the Nucletron Brachytherapy Planning System (BPS) formalism. Using the MC calculated radial dose function and anisotropy function with the BPS formalism, 1% dose calculation accuracy can be achieved even in the near field with negligible extra demand on computation time. A video method was used to analyse the entrance, exit and the inter-dwell transit speed of the HDR stepping source for different path lengths and step sizes ranging from 2.5 mm to 995 mm. The transit speeds were found to be ranging from 54 to 467 mm/s. The results also show that the manufacturer has attempted to compensate for the effects of inter-dwell transit dose by reducing the actual dwell time of the source. A well-type chamber was used to determine the transit doses. Most of the measured dose differences between stationary and stationary plus inter-dwell source movement were within 2%. The small-field dosimetry study investigates the effect of detector size in the dosimetry of small fields and steep dose gradients with a particular emphasis on IMRT measurements. Due to the finite size of the detector, local discrepancies of more than 10 % are found between calculated cross profiles of intensity modulated beams and intensity modulated profiles measured with film. A method to correct for the spatial response of finite sized detectors and to obtain the Intensity modulated radiation therapy HDR brachytherapy near field dosimetry transit dose small field dosimetry quality assurance volume effect
12	Interlaminar bonding in ultrasonic consolidation Edmonds, Hannah January 2012 (has links) Ultrasonic Consolidation (UC) is a solid state additive manufacturing process which fabricates three-dimensional objects by ultrasonically joining metal foils together, layer-bylayer, to form a solid part. A wide range of materials can be used to fabricate parts by UC and products with complex internal geometry can be generated by shaping the crosssection throughout the build using Computer Numerically Controlled (CNC) milling. As a result of its ability to embed various secondary materials and fibres in metal matrices, UC has emerged as a potential method of fabricating multi-functional materials and structures.
13	Evaluation de l’integration des donnees issues de la tomographie par emission de positons en radiotherapie : application à deux modèles cliniques : les cancers ORL et les cancers pulmonaires / Assessment of the integration of positron emission tomography data in radiotherapy : application through two clinical model the head-and-neck cancers and the pulmonary cancers : the head-and-neck cancers and the pulmonary cancers Henriques de Figueiredo, Bénédicte 17 December 2013 (has links) Objectif : Etudier l’impact volumétrique et dosimétrique de l’intégration des données de tomographie par émission de positons (TEP) en radiothérapie (RT) à travers deux modèles cliniques : les cancers oto-rhino-laryngologiques (ORL) et les cancers pulmonaires. Matériel et méthodes : Pour les cancers ORL, après un travail préalable sur fantôme pour mise au point d’une méthode de segmentation automatique par seuillage adaptatif, deux séries de neuf et 15 patients présentant un cancer ORL traité par RT, ont bénéficié d’une TEP respectivement au 18F-Fluorodeoxyglucose (18F-FDG) et au 18F-Fluoromisonidazole (18F-FMISO), traceur de l’hypoxie. Les modifications volumétriques et dosimétriques induites par ces examens ont été analysées. Pour le 18F-FMISO, différents temps d’acquisition et différentes méthodes de segmentation ont également été étudiés. Pour les cancers pulmonaires, l’impact sur la RT d’une TEP-4D au 18F-FDG avec correction des effets de volume partiel (EVP) et application de différentes méthodes de segmentation, a été évalué à travers l’analyse des sept premiers patients inclus dans le protocole PULMOTEP, promu par le CHU de Bordeaux. Résultats : Pour les cancers ORL, la TEP au 18F-FDG a conduit à une réduction des volumes de RT de 40% tout en individualisant des zones de « mismatch » entre TEP et scanner. Pour la TEP au 18F-FMISO, un meilleur contraste des images était retrouvé à 4h. Cependant, les volumes segmentés à 3 et 4h n’étaient pas significativement différents, permettant d’envisager en pratique courante des acquisitions moins tardives à 3h. L’utilisation d’une TEP au 18F-FMISO permettait d’envisager la réalisation d’une « escalade de dose » sur les zones hypoxiques avec une augmentation du taux de probabilité de contrôle tumoral de 18,1% sans augmentation excessive de la toxicité. Pour les cancers pulmonaires, il n’était pas retrouvé d’impact de la correction du mouvement respiratoire, un seul patient sur les sept étudiés présentant une tumeur mobile. Un impact constant de la correction des EVP était par contre retrouvé avec une augmentation de l’activité tumorale maximale de 27% et une diminution des volumes segmentés de 15%.Conclusion : Pour les cancers ORL, la validation de ces résultats nécessite la réalisation d’études cliniques. Pour les cancers pulmonaires, l’utilisation d’une TEP-4D avec correction du mouvement respiratoire doit être envisagée au cas par cas. L’implémentation en clinique de logiciels de correction des EVP semble, par contre, à encourager. / Objective: To study the impact of Positron Emission Tomography (PET) data on radiotherapy (RT) planning through two clinical models: the head-and-neck cancers (HNC) and the pulmonary cancers. Methods and Materials: For HNC, after a previous phantom study in order to determinate an automatic segmentation method with adaptive thresholding, two series of nine and 15 patients selected for RT, underwent PET with 18F-Fluorodeoxyglucose (FDG) and 18F-Fluoromisonidazole (FMISO). The impact on RT target volumes (TV) and dosimetries was evaluated. For FMISO-PET, several time acquisitions and several segmentation methods were assessed. For pulmonary cancers, the use of a four-dimensional (4D) FDG-PET with partial volume effect (PVE) correction and several segmentation methods was evaluated through the first seven patients enrolled in the PULMOTEP protocol performed by the CHU of Bordeaux. Results: For HNC, FDG-PET led to a RT TV reduction of 40%, with mismatches between PET and CT data. For FMISO-PET images, a better contrast was obtained 4h after FMISO injection. However, segmented volumes obtained at 3 and 4h were not statistically different allowing PET- acquisitions at 3h in routine clinical practice. The use of FMISO-PET allows considering « dose escalation » on hypoxic TV with an increase of tumour control probability by 18,1% without excessive increase of toxicities. For pulmonary cancers, there was no impact of the respiratory motion correction but only one patient on seven presented a mobile tumour. PVE correction had impact on RT TV with an increase of the maximal tumoural activity by 27% and a volume reduction of 15%. Conclusion: For HNC, the validation of these results needs clinical and prospective studies. For pulmonary cancers, the use of 4D-PET must be decided case by case. On the other side, the implementation of automatic software for PVE correction seems interesting. Radiothérapie Tomographie par émission de positons Effet de volume partiel Mouvement respiratoire Segmentation Radiotherapy Positron emission tomography Partial volume effect Respiratory motion Segmentation
14	Morphometric analysis of brain structures in MRI González Ballester, Miguel Ángel January 1999 (has links) Medical computer vision is a novel research discipline based on the application of computer vision methods to data sets acquired via medical imaging techniques. This work focuses on magnetic resonance imaging (MRI) data sets, particularly in studies of schizophrenia and multiple sclerosis. Research on these diseases is challenged by the lack of appropriate morphometric tools to accurately quantify lesion growth, assess the effectiveness of a drug treatment, or investigate anatomical information believed to be evidence of schizophrenia. Thus, most hypotheses involving these conditions remain unproven. This thesis contributes towards the development of such morphometric techniques. A framework combining several tools is established, allowing for compensation of bias fields, boundary detection by modelling partial volume effects (PVE), and a combined statistical and geometrical segmentation method. Most importantly, it also allows for the computation of confidence bounds in the location of the object being segmented by bounding PVE voxels. Bounds obtained in such fashion encompass a significant percentage of the volume of the object (typically 20-60%). A statistical model of the intensities contained in PVE voxels is used to provide insight into the contents of PVE voxels and further narrow confidence bounds. This not only permits a reduction by an order of magnitude in the width of the confidence intervals, but also establishes a statistical mechanism to obtain probability distributions on shape descriptors (e.g. volume), instead of just a raw magnitude or a set of confidence bounds. A challenging clinical study is performed using these tools: to investigate differences in asymmetry of the temporal horns in schizophrenia. This study is of high clinical relevance. The results show that our tools are sufficiently accurate for studies of this kind, thus providing clinicians, for the first time, with the means to corroborate unproven hypotheses or reliably assess patient evolution. 621.3994
15	Estimation du volume de glace et imagerie 3D des cryostructures de pergélisol par tomodensitométrie Darey, Jonas 01 1900 (has links) Ce mémoire a pour objectif de mieux comprendre la tomodensitométrie par rayons-x appliquée à la géocryologie. La majorité des études ayant pour but d’analyser le pergélisol en utilisant la tomodensitométrie sont qualitative. De ce fait, il est principalement question de décrire les cryostructures et la disposition géométrique de la glace dans le pergélisol. Il existe peu d’études quantitatives où le volume de glace est estimé avec la tomodensitométrie. De ce fait les méthodologies quantitatives sont peu développées et leur degré de confiance est mal connu. Des échantillons de pergélisol ont été scannés puis analysés avec le logiciel de visualisation Dragonfly©. Une méthode d’analyse quantitative a été développée et combinée à des mesures en laboratoire afin de déterminer l’erreur entre la proportion en glace estimée sur les Ct-Scans et celle mesurée sur l’échantillon physique. Ensuite, une équation pour essayer de corriger cette erreur a été appliquée. Celle-ci a été déterminée à partir de comparaisons des estimations des volumes de glace sur les Ct-Scans et leurs valeurs mesurées en laboratoire. Ces comparaisons ont également permis d’estimer la quantité de matière organique présente dans un échantillon. Les cryostructures du pergélisol ont été modélisées en 3D. Cela a permis de bonifier la classification Nord-Américaine établie par Murton et French en 1994 et de quantifier les volumes respectifs de glace et de sédiments. / This thesis aims to better understand x-ray computed tomography in geosciences and more particularly its use with frozen ground science. Most studies in permafrost science using x-ray computed tomography were qualitative. Therefore, they mainly describe the permafrost cryostructures and the geometric arrangement of the ice in permafrost. There were few quantitative studies where the volumetric ice content of permafrost was estimated with Ct-Scans. As a result, quantitative methodologies are poorly developed, and their degree of confidence is also poorly assessed. Samples from different locations in the Canadian Arctic were scanned and analyzed using Dragonfly©, a visualization software. A quantitative analysis method has been developed and combined with laboratory measurements to calculate the error between the proportion of ice estimated on the Ct-Scans and the one measured on the physical sample. A correction method was developed and applied to the Ct-scans dataset to reduce the error in volumetric ice content estimations. This equation also allows to give an estimation of the organic matter proportion inside a sample. The permafrost cryostructures were modeled in 3D. This improved the visualization of the cryostructures of the North American classification established by Murton and French in 1994, and it allowed to quantify their volumetric ice and sediment contents. Pergélisol Tomodensitométrie Ct-scan Cryostructure Cryostratigraphie Permafrost X-ray computed tomography Cryostratigraphy Partial volume effect
16	CHARACTERIZATION OF ATHEROSCLEROSIS WITH MAGNETIC RESONANCE IMAGING, CHALLENGES AND VALIDATION Salvado, Olivier 18 July 2006 (has links) No description available. Engineering, Biomedical Atheroclerosis Magnetic Resonance Imaging Intensity inhomegeneity Partial volume effect Noise Anisotropic diffusion Vulnerable plaque Cryoimaging Segmetnation Tissue classification Registration
17	The impact of single stock futures on the South African equity market De Beer, Johannes Scheepers 30 November 2008 (has links) Text in English with summaries in English and Afrikaans / The introduction of single stock futures to a market presents the opportunity to assess an individual company's response to futures trading directly, in contrast to the market-wide impact obtained from index futures studies. Thirty-eight South African companies were evaluated in terms of a possible price, volume, and volatility effect due to the initial trading of their respective single stock futures contracts. An event study revealed that SSF trading had little impact on the underlying share prices. A normalised volume comparison pre to post SSF trading showed a general increase in spot market trading volumes. The volatility effect was the main focus of this study with a GARCH(1,1) model establishing a volatility structure (pattern of behaviour) per company. Results showed a reduction in the level and changes in the structure of spot market volatility. In addition, a dummy variable regression could find no evidence of an altered company-market relationship (systematic risk) post futures. / Business Management / M.Com. (Business Management) Equity shares Event study Futures trading GARCH model Price effect Single stock futures Spot market Volatility effect Volatility level Volatility structure Volume effect 332.64268 Stock exchanges -- South Africa Single stock futures -- South Africa Futures -- South Africa
18	Ray Cast/Dose Superposition algorithm for proton grid therapy Marusic, Tibor January 2017 (has links) Purpose: To develop a Ray Cast/Dose Superposition (RC/DS) algorithm for proton grid therapy. Its functionality needed to include automatic positioning of small proton pencil beams in a grid-pattern and superimposing thin beam Monte Carlo (MC) dose distribution data on a Computer Tomography (CT) density volume. The purpose was to calculate and store un-weighted volumetric dose distributions of individual proton energies for subsequent optimization. Materials & Methods: Using the programming language Python 3.6, CT and Volume Of Interest (VOI) data of various patients and phantoms were imported. The target VOI was projected to either two or four planes, corresponding to the number of used gantry positions. Rays were then traced through the CT voxels, which were converted from Hounseld Units to density using a look up table, to calculate Water Equivalent Distance and proton energy needed to reach the proximal and distal edge of the target volume. With automated grid-pattern beam positioning, thin beam MC calculated depth dose distribution files were interpolated, scaled and superimposed on the CT volume for all beamlet positions. The algorithm reliability was tested on several CT image sets, the proton range estimation compared to a commercial TPS and the depth dose interpolation analyzed using MC simulations. Results: The RC/DS algorithm computation time was on average around 6 hours and 30 minutes for each CT set. The dose distribution output visually conformed to target locations and maintained a grid pattern for all tested CT sets. It gave unwanted dose artifacts in situations when rays outside the beamlet center passed a significant length of low/high density regions compared to the center, which yielded dose distributions of unlikely shape. Interpolating MC dose distribution values showed comparability to true MC references of same energy, yielding results with 0.5% difference in relative range and dose. Conclusions: The developed algorithm provides unweighted dose distributions specific for small beam proton grid therapy and has been shown to work for various setups and CT data. Un-optimized code caused longer computation times then intended but was presumed faster than MC simulations of the same setup. Efficiency and accuracy improvements are planed for in future work. / Proton grid therapy group Medical Equipment Engineering Medicinsk apparatteknik
19	Caractérisation des tumeurs et de leur évolution en TEP/TDM au ¹⁸F-FDG pour le suivi thérapeutique / Characterization of the tumors and their evolutions using PET/CT for treatment following Maisonobe, Jacques-Antoine 13 December 2012 (has links) La Tomographie par Emission de Positons (TEP) au Fluoro-déoxyglucose marqué au Fluor 18 (¹⁸F-FDG), analogue du glucose, permet d'obtenir une image de la consommation de glucose dans l'organisme. La plupart des foyers tumoraux présentant une consommation excessive de glucose, son utilisation en oncologie permet d'améliorer la prise en charge des patients en diminuant le temps nécessaire pour évaluer l'efficacité des traitements tels que la chimiothérapie et la radiothérapie. Mon projet de recherche visait à proposer et améliorer des méthodes de quantification en TEP au ¹⁸F-FDG afin de caractériser au mieux l'évolution métabolique des volumes tumoraux.De nombreux facteurs biaisent la quantification en TEP. Parmi eux, l'Effet de Volume Partiel (EVP) reste difficile à corriger, notamment à cause de la faible résolution spatiale des images TEP. Afin de déterminer l'impact de la correction de l’EVP sur l’évaluation des réponses des tumeurs, une étude sur données simulées par Monte Carlo a tout d’abord été effectuée. Cette étude a été complétée par l’analyse de données TEP/TDM (Tomodensitométrie) acquises chez 40 patients atteints de cancers colorectaux métastatiques (CCM), traités par chimiothérapie à l'Institut Jules Bordet (Bruxelles). L’analyse de 101 tumeurs a montré que les critères tels que le SUV, n’incluant pas de correction de l'EVP, et qui reflètent alors le volume tumoral et son activité, prédisaient mieux l’évolution tumorale que les critères corrigés de l’EVP. Compte tenus des résultats prometteurs récents de méthodes de caractérisation de l’hétérogénéité de la fixation du FDG dans les tumeurs, un second volet de notre travail a consisté à étudier l’intérêt de la prise en compte de la texture dans le cadre du suivi thérapeutique. L’application de l’analyse de texture aux cas de CCM étudiés précédemment n’a pas permis de démontrer une valeur ajoutée des indices de texture par rapport aux index quantitatifs couramment employés en clinique. Nous avons montré que cette conclusion s’expliquait en partie par la non-robustesse des indices de texture vis-à-vis des paramètres impliqués dans leur mesure. Nous avons enfin cherché à évaluer une méthode d’Analyse Factorielle de Séquences d’Images Médicales (AFSIM), appliquée au contexte du suivi thérapeutique, pour caractériser l’évolution tumorale tout au long du traitement. Cette étude a porté sur 9 séries de 4 à 6 examens TEP/TDM de patients traités par radiothérapie au Centre Hospitalier Universitaire Henri Becquerel de Rouen. Outre l’information visuelle globale apportée par cette méthode, l’analyse quantitative des résultats obtenus a permis de caractériser l’hétérogénéité de la réponse vue par l’AFSIM. L’échec des index classiques, provenant entre autres de leur incapacité à distinguer les processus inflammatoires de l’activité métabolique tumorale, a permis de monter la valeur ajoutée de l’AFSIM par rapport aux index tels que le SUV maximal ou moyen. / Positron Emission Tomography (PET) using ¹⁸F-FluoroDeoxyGlucose (¹⁸F-FDG), a radiolabelled analogue of the glucose, is used to get an image of the glucose consumption in the body. As most tumor masses show a high glucose consumption, PET is widely used in oncology for diagnosis and patient monitoring. In the context of patient monitoring, the motivation is to decrease the time interval needed to assess treatment (radiotherapy or chemotherapy efficieny) compared to therapeutic follow-up based only on anatomic imaging only (Computed Tomography or Magnetic Resonance Imaging). My research project aimed at proposing and improving quantitative methods in FDG-PET to better characterize tumor evolution.In PET, many factors affect the accuracy of parameters estimated from the images. Among them, Partial Volume Effect (PVE) remains difficult to correct, mainly due to the low spatial resolution of PET images. To determine the impact of PVE on treatment response evaluation, a preliminary study was performed using Monte Carlo simulated PET scans. An additional study was conducted based on the analysis of the PET/CT (Computed Tomography) data of 40 Metastatic Colorectal Cancer (MCC) patients treated with chemotherapy at the Jules Bordet Institute (Brussels, Belgium). The analysis of the 101 tumors showed that criteria such as the Standardized Uptake Value (SUV), which does not include PVE correction, were better predictors of tumors evolutions than PVE corrected criteria. This is because without PVE correction, SUV includes information on both metabolic volume and metabolic activity, which are two relevant pieces of information to characterize the tumor. A second part of our work was to study the potential of tumor texture analysis in patient monitoring, following promising results reported in the literature. Texture analysis was applied to the MMC patients data previously mentioned but did allow to a better segregation of tumors responses as compared to indices currently used in the clinics. We found that this was partly due to the lack of robustness of the textures indices.Finally, we evaluated a Factor Analysis in Medical Images Series (FAMIS) method to characterize tumor evolution during treatment. This study focused on 9 series of 4 to 6 PET/CT scans acquired all along the radiotherapy/radio-chemotherapy of patients treated at the Centre Hospitalier Universitaire Henri Becquerel (Rouen, France). In addition to the rich visual information brought by this method, a quantitative analysis of the results made it possible to characterize response heterogeneity as seen using FAMIS. In particular, FAMIS clearly demonstrated the occurrence of inflammatory processes. In addition, due to the low metabolic activity of the tumors at the end of the treatment, many conventional indices could not describe the tumor changes, while FAMIS gave a full assessment of the tumor change over time. TEP/TDM ¹⁸F-FDG Suivi thérapeutique Quantification SUV Effet de volume partiel Hétérogénéité Texture Analyse factorielle AFSIM PET/CT ¹⁸F-FDG Treatment following Quantification SUV Partial volume effect Heterogeneity Texture Factor analysis FAST
20	The impact of single stock futures on the South African equity market De Beer, Johannes Scheepers 30 November 2008 (has links) Text in English with summaries in English and Afrikaans / The introduction of single stock futures to a market presents the opportunity to assess an individual company's response to futures trading directly, in contrast to the market-wide impact obtained from index futures studies. Thirty-eight South African companies were evaluated in terms of a possible price, volume, and volatility effect due to the initial trading of their respective single stock futures contracts. An event study revealed that SSF trading had little impact on the underlying share prices. A normalised volume comparison pre to post SSF trading showed a general increase in spot market trading volumes. The volatility effect was the main focus of this study with a GARCH(1,1) model establishing a volatility structure (pattern of behaviour) per company. Results showed a reduction in the level and changes in the structure of spot market volatility. In addition, a dummy variable regression could find no evidence of an altered company-market relationship (systematic risk) post futures. / Business Management / M.Com. (Business Management) Equity shares Event study Futures trading GARCH model Price effect Single stock futures Spot market Volatility effect Volatility level Volatility structure Volume effect 332.64268 Stock exchanges -- South Africa Single stock futures -- South Africa Futures -- South Africa

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