Global ETD Search

111	Abdominal Aortic Aneurysm : Experience from a Screening Study in Northern Sweden Wanhainen, Anders January 2004 (has links) Abdominal aortic aneurysm (AAA) is a common problem with life-threatening consequences and was suspected to be a serious health problem in Norsjö, a municipality in northern Sweden. A screening study was undertaken to investigate the prevalence, risk factors associated with AAA and the effect of screening on quality of life (QoL). All men and women, aged 65-75 years, were invited to an ultrasonography (US) examination, 91% attended and 92 subjects were also evaluated with computed tomography (CT). Depending on diagnostic criteria, the AAA prevalence was 3.6-16.9% in men and 0.8-9.4% in women. Seventy-five percent of the differences between US- and CT anteroposterior measurements were less than 5 mm. A decrease in mental health was observed among AAA patients with low baseline SF-36 scale scores. Elevated cholesterol at age 60 years were associated with screening detected AAA after 12 years of follow-up. Smoking, atherosclerosis and having a first degree relative with AAA were associated with AAA at screening. Compared to blood samples obtained 12 years prior to screening an elevation of hsCRP over time was observed among AAA patients. Based on a systematic review of the literature, different screening strategies were analysed in a Markov cohort model. The cost per life year gained ranged from $8 309 to $14 084 and was estimated to $10 474 when 65 year old men were screened once. Conclusions: The highest prevalence of AAA ever reported, in a population-based screening program, was found in Norsjö. The risk of having an AAA at screening showed a strong but complex association with atherosclerosis and its risk factors, genetic and inflammatory mechanisms may also be important. Screening 65-year-old men for AAA may be cost-effective, but QoL aspects on the cost-effectiveness of AAA screening merits further investigation. Surgery abdominal aortic aneurysm definition prevalence ultrasonography computed tomography variability quality of life SF-36 risk factor cholesterol smoking CRP heredity atherosclerosis screening cost-effectiveness cost-utility Kirurgi Surgery Kirurgi
112	Abdominal Aortic Aneurysm : Molecular Imaging Studies of Pathophysiology Tegler, Gustaf January 2013 (has links) The pathological process behind abdominal aortic aneurysm (AAA) formation is poorly understood and difficult to study. The aim of the thesis was to study the pathophysiology of AAA formation with positron emission tomography (PET) technology, a molecular imaging technique, allowing in vivo studies of pathophysiological changes. In study I 18F-FDG, a glucose analogue, was tested. It had previously been reported as a useful tracer studying inflammation in AAAs. These studies included, however, foremost large, symptomatic, and inflammatory AAAs. In the present study on five small and seven large asymptomatic AAAs, no increase in 18F-FDG uptake could be revealed in vivo. In study II 11C-PK11195, a macrophage tracer, and 11C-D-deprenyl, an unspecific inflammatory tracer, previously never tested on asymptomatic AAAs, were tested in vivo on five and 10 AAA-patients respectively, without signs of increased levels of inflammatory activity in the aorta. In study III several tracers were screened in vitro through autoradiography on AAA tissue. [18F]fluciclatide, targeting the integrin αVβ3 receptor upregulated in angiogenesis, was the only tracer with an increased uptake. In study IV [18F]fluciclatide-autoradiography was performed on AAA tissue from five patients and non-aneurysmal aortic tissue obtained from five age and sex matched organ donors. The study showed a 56% increased specific uptake in AAA, although not significant (P=0.136). Immunohistochemical revealed inflammatory cell foci in close relation to the vessels. In conclusion, PET has potential to elucidate the pathophysiology of AAA formation. For the large group of small asymptomatic AAAs, 18F-FDG is not suitable, as the chronic inflammation in asymptomatic AAA is not sufficiently metabolically active. Furthermore, 11C-PK11195 and 11C-D-deprenyl were unable to show the chronic inflammation seen in asymptomatic AAA. The interesting finding with uptake of [18F]fluciclatide showed that angiogenesis may be imaged in large asymptomatic AAAs in vitro, through the integrin αVβ3 receptor. Thus, it is likely that future studies of the role of angiogenesis in AAA formation in vivo, in small AAAs, could use this target site. The development of an integrin αVβ3 receptor tracer, preferably with higher affinity, is in progress for further in vitro and in vivo studies. Abdominal aortic aneurysm AAA Positron emission tomography PET Molecular Imaging Pathophysiology Autoradiography Angiogenesis integrin alphaVbeta3 FDG 18F-FDG 11C-PK11195 11C-D-deprenyl [18F]fluciclatide Fluciclatide Bukaortaaneurysm Molekylär bilddiagnostik Patofysiologi PET Autoradiografi Angiogenes
113	Revêtement anti-apoptotique à base de chondroïtine sulfate : vers un stent-graft bioactif Charbonneau, Cindy 09 1900 (has links) La réparation endovasculaire (EVAR) est une technique minimalement invasive permettant de traiter l’anévrisme de l’aorte abdominale (AAA) par l’entremise d’un stent- graft (SG). L’utilisation d’EVAR est actuellement limitée par de fréquentes complications liées à une guérison inadéquate autour de l’implant. Ce manque de guérison est principalement dû au type de recouvrement polymérique des SG, au milieu pro-apoptotique des AAA et à l’accès réduit aux nutriments et à l’oxygène après EVAR. L’objectif de cette thèse consistait à concevoir un revêtement bioactif permettant d’inhiber l’apoptose et stimuler la croissance des cellules musculaires lisses vasculaires (CMLV), pour ainsi favoriser la guérison des tissus vasculaires autour des SG. La chondroïtine-4-sulfate (CS) a d’abord été choisie, car elle a été identifiée comme un médiateur important de la réparation vasculaire. Il a été démontré que la CS en solution influence directement la résistance à l’apoptose des CMLV, en plus de favoriser la différenciation myofibroblastique chez les fibroblastes. Dans le cadre de ce projet, un premier revêtement à base de CS et de collagène a été créé. Bien que le revêtement permettait d’induire une résistance à l’apoptose chez les CMLV, il se désintégrait trop rapidement dans des conditions aqueuses. Une nouvelle méthodologie a donc été adaptée afin de greffer la CS directement sur des surfaces aminées, à l’aide d’un système utilisant un carbodiimide. Dans le but d’accroître la croissance des CMLV à la surface des revêtements, le facteur de croissance de l’épiderme (EGF) a ensuite été sélectionné. En plus de ses propriétés mitogéniques et chimiotactiques, l’EGF stimule la production d’éléments de la matrice extracellulaire, comme le collagène et la fibronectine. De plus, l’activation du récepteur de l’EGF inhibe également l’apoptose des CMLV. L’EGF a donc été greffé sur la CS. Le revêtement de CS+EGF a démontré une bonne uniformité et bioactivité sur des surfaces de verre aminé. iii iv Dans une 3ème étape, afin de permettre de transposer ce revêtement bioactif sur des implants, plusieurs méthodes permettant de créer des groupements d’amines primaires sur les biomatériaux polymériques comme le PET ou le ePTFE ont été étudiées. La polymérisation par plasma a été choisie pour créer le revêtement CS+EGF à la surface de PET. Une fois de plus, celui-ci a permis d’inhiber l’apoptose des CMLV, dans des conditions pro-apoptotiques, et de favoriser la croissance des cellules. Le revêtement de CS et d’EGF, déposé sur des surfaces aminées, possède des caractéristiques biologiques intéressantes et semble donc prometteur pour favoriser une meilleure guérison autour des SG. / Endovascular aneurysm repair (EVAR) is a minimally invasive technique performed to treat abdominal aortic aneurysm (AAA) through the use of a stent-graft (SG). The usage of EVAR is presently limited by postoperative complications related to an incomplete healing of the surrounding tissues. The materials currently used in SG, the pro- apoptotic phathophysiology of AAA and the limited access to nutrients and oxygen, all limit the wound healing process and proper tissue ingrowth around the implant. The main objective of this thesis was to create of a bioactive coating inhibiting cell apoptosis and increasing vascular smooth muscle cells (VSMC) growth, to promote healing of the vascular tissues surrounding SG. Chondroitin sulfate (CS) was chosen since recent findings have shown that this polysaccharide triggers key mechanisms involved in vascular repair. CS in solution was shown to inhibit apoptosis of VSMC, as well as stimulate myofibroblast differentiation. A coating of CS and collagen was first created for the purpose of this work. Although the coating was shown to increase cell resistance to apoptosis with VSMC, it was not stable enough, since it rapidly disintegrated in aqueous solutions. A new methodology was thus proposed, where CS was grafted right on aminated surfaces, through carbodiimide chemistry. Epidermal growth factor (EGF) was then chosen to increase VSMC growth on the coatings. EGF is a known mitogenic and chemotactif growth factor for VSMC. It also stimulates the production of extracellular matrix elements, such as collagen and fibronectin. The activation of EGF receptor (EGFR) also triggers various cell signalling pathways modulating VSMC resistance to apoptosis. EGF was thus grafted on CS. CS+EGF coating on aminated glassed slides was shown to be uniform and bioactive. Finally, several methodologies to produce primary amines on polymeric biomaterials, such as PET and ePTFE, were studied in order to eventually transfer the v vi coating on implants. Plasma polymerization was chosen to create the CS+EGF coating. Once again the coating was shown to decrease VSMC apoptosis, in apoptotic conditions, and favour cell growth. Overall, the CS and EGF coating on aminated surfaces possesses interesting biological features and is a promising avenue to stimulate vascular healing around SG. Anévrisme de l’aorte abdominale Abdominal aortic aneurysm Stent-graft Stent-graft Revêtement bioactif Bioactive coating Chondroïtine sulfate Chondroitin sulfate Facteur de croissance de l’épiderme Epidermal growth factor Apoptose Apoptosis
114	Patient-Specific 3D Vascular Reconstruction and Computational Assessment of Biomechanics – an Application to Abdominal Aortic Aneurysm Raut, Samarth Shankar 01 August 2012 (has links) The current clinical management of abdominal aortic aneurysm (AAA) disease is based on measuring the aneurysm maximum diameter to decide when timely intervention can be recommended to a patient. However, other parameters may also play a role in causing or predisposing the AAA to either an early or delayed rupture relative to its size. Therefore, patient-specific assessment of rupture risk based on physical principles such as individualized biomechanics can be conducive to the development of a vascular tool with translational potential. To that end, the present doctoral research materialized into a framework for image based patient-specific vascular biomechanics assessment. A robust generalized approach is described herein for image-based volume mesh generation of complex multidomain bifurcated vascular trees with the capability of incorporating regionally varying wall thickness. The developed framework is assessed for geometrical accuracy, mesh quality, and optimal computational performance. The relative influence of the shape and the constitutive wall material property on the AAA wall mechanics was explored. This study resulted in statistically insignificant differences in peak wall stress among 28 AAA geometries of similar maximum diameter (in the 50 – 55 mm range) when modeled with five different hyperelastic isotropic constitutive equations. Relative influence of regionally varying vs. uniform wall thickness distribution on the AAA wall mechanics was also assessed to find statistically significant differences in spatial maxima of wall stresses, strains, and strain energy densities among the same 28 AAA geometries modeled with patient-specific non-uniform wall thickness and two uniform wall thickness assumptions. Finally, the feasibility of estimating in vivo wall strains from individual clinical images was evaluated. Such study resulted in a framework for in vivo 3D strain distributions based on ECG gated, unenhanced, dynamic magnetic resonance images acquired for 20 phases in the cardiac cycle. Future efforts should be focused on further development of the framework for in vivo estimation of regionally varying hyperelastic, anisotropic constitutive material models with active mechanics components and the integration of such framework with an open source finite element solver with the goal of increasing the translational potential of these tools for individualized prediction of AAA rupture risk in the clinic. Patient-specific biomodeling anatomical mesh fairing uncertainties in biomodeling in vivo material characterization in vivo strain variable wall thickness computed tomography magnetic resonance imaging abdominal aortic aneurysm AAA vascular biomechanics. Biomechanical Engineering
115	Suivi par élastographie ultrasonore après réparation endovasculaire d’anévrisme aorto-iliaque : étude de faisabilité in vivo Bertrand-Grenier, Antony 12 1900 (has links) No description available. Élastographie dynamique Anévrisme de l’aorte abdominale Réparation endovasculaire Endofuite Thrombus Tomodensitométrie Imagerie ultrasonore Agent embolisant Histologie Angiographie Dynamic elastography Abdominal aortic aneurysm Endovascular repair Endoleak Computed tomography Ultrasound imaging Embolization agent Histology Angiography
116	In Vivo Aortic MR Elastography: Technical Development and Application in Abdominal Aortic Aneurysm Dong, Huiming January 2020 (has links) No description available. Biomedical Engineering Biomechanics Health Care Medical Imaging Radiology MR Elastography MR Physics Spin-Echo Echo-Planar-Imaging Free-Breathing Single Breath-hold Compressed Sensing MRE Inversion Clinical Application Abdominal Aortic Aneurysm Stiffness AAA Animal Model Longitudinal Patient Study Risk Stratification
117	Pharmacotherapies and Aortic Heme Oxygenase-1 Expression in Patients with Abdominal Aortic Aneurysm Hofmann, Anja, Hamann, Bianca, Klimova, Anna, Müglich, Margarete, Wolk, Steffen, Busch, Albert, Frank, Frieda, Sabarstinski, Pamela, Kapalla, Marvin, Nees, Josef Albin, Brunssen, Coy, Poitz, David M., Morawietz, Henning, Reeps, Christian 06 June 2024 (has links) Background: Treatment of cardiovascular risk factors slows the progression of small abdominal aortic aneurysms (AAA). Heme oxygenase-1 (HO-1) is a stress- and hemin-induced enzyme providing cytoprotection against oxidative stress when overexpressed. However, nothing is known about the effects of cardiometabolic standard therapies on HO-1 expression in aortic walls in patients with end-stage AAA. Methods: The effects of statins, angiotensin-converting enzyme (ACE) inhibitors, angiotensin II receptor blockers (ARBs), calcium channel blockers (CCBs), betablockers, diuretics, acetylsalicylic acid (ASA), and therapeutic anticoagulation on HO-1 mRNA and protein expressions were analyzed in AAA patients using multivariate logistic regression analysis and comparison of monotherapy. Results: Analysis of monotherapy revealed that HO-1 mRNA and protein expressions were higher in patients on diuretics and lower in patients on statin therapy. Tests on combinations of antihypertensive medications demonstrated that ACE inhibitors and diuretics, ARBs and diuretics, and beta-blockers and diuretics were associated with increase in HO-1 mRNA expression. ASA and therapeutic anticoagulation were not linked to HO-1 expression. Conclusion: Diuretics showed the strongest association with HO-1 expression, persisting even in combination with other antihypertensive medications. Hence, changes in aortic HO-1 expression in response to different medical therapies and their effects on vessel wall degeneration should be analyzed in future studies. info:eu-repo/classification/ddc/540 ddc:540 info:eu-repo/classification/ddc/610 ddc:610
118	Deformačně-napěťová analýza aneurysmatu břišní aorty / Stress-strain analysis of abdominal aortic aneurysm Ryšavý, Pavel January 2011 (has links) This thesis deals with problems of biomechanics of soft tissues, namely of stress-strain analysis of abdominal aortic aneurysm (AAA). The introduction describes briefly the possibility of aneurysm occurrence with a focus on an aneurysm in the abdominal aorta.
119	Morphologic evaluation of ruptured abdominal aortic aneurysm by 3D modeling Tang, An 08 1900 (has links) Abdominal aortic aneurysm (AAA) is defined as a dilatation of the abdominal aorta exceeding the normal diameter by more than 50%. The standard and widely used approach to assess AAA size is by measuring the maximal diameter (Dmax). Currently, the main predictors of rupture risk are the Dmax, sex, and the expansion rate of the aneurysm. Yet, Dmax has some limitations. AAAs of vastly different shapes may have the same maximal diameter. Dmax lacks sensitivity for rupture risk, especially among smaller AAAs. Thus, there is a need to evaluate the susceptibility of a given AAA to rupture on a patient-specific basis. We present the design concept and workflow of the AAA segmentation software developed at our institution. We describe the previous validation steps in which we evaluated the reproducibility of manual Dmax, compared software Dmax against manual Dmax, validated reproducibility of software Dmax and volume in cross-sectional and longitudinal studies for detection of AAA growth, and evaluated the reproducibility of software measurements in unenhanced computed tomographic angiography (CTA) and in the presence of stent-graft. In order to define new geometric features associated with rupture, we performed a case-control study in which we compared 63 cases with ruptured or symptomatic AAA and 94 controls with asymptomatic AAA. Univariate logistic regression analysis revealed 14 geometric indices associated with AAA rupture. In the multivariate logistic regression analysis, adjusting for Dmax and sex, the AAA with a higher bulge location and higher mean averaged surface area were associated with AAA rupture. Our preliminary results suggest that incorporating geometrical indices obtained by segmentation of CT shows a trend toward improvement of the classification accuracy of AAA with high rupture risk at CT over a traditional model based on Dmax and sex alone. Larger longitudinal studies are needed to verify the validity of the proposed model. Addition of flow and biomechanical simulations should be investigated to improve rupture risk prediction based on AAA modeling. / Un anévrysme de l'aorte abdominale (AAA) est défini par une dilatation de plus de 50% par rapport au diamètre normal. La méthode standard et largement répandue pour mesurer la dimension d'un AAA consiste à mesurer le diamètre maximal (Dmax). Présentement, les principaux prédicteurs de risque de rupture sont le Dmax, le sexe et le taux d'expansion d'un anévrysme. Toutefois, le Dmax a certaines limitations. Des AAAs de formes très différentes peuvent avoir le même diamètre maximal. Le Dmax manque de sensibilité pour détecter le risque de rupture, en particulier pour les petits anévrysmes. Par conséquent, il y a un besoin d'évaluer de manière spécifique et individuelle la susceptibilité de rupture d'un AAA. Nous présentons le concept et le flux de travail d'un logiciel de segmentation des AAAs développé à notre institution. Nous décrivons les étapes antérieures de validation: évaluation de la reproductibilité du Dmax manuel, comparaison de Dmax par logiciel avec Dmax manuel, validation de la reproductibilité du Dmax et volume par logiciel dans des études transversale et longitudinale pour la détection de croissance et évaluation de la reproductibilité de mesures sur angiographie par tomodensitométrie et en présence d'endoprothèse. En vue d’identifier de nouveaux paramètres géométrique associés avec le risque de rupture, nous avons réalisé une étude cas-témoin comparant 63 cas avec AAA rompu ou symptomatique et 94 contrôles avec AAA asymptomatique. Une analyse de régression logistique univariée a identifié 14 indices géométriques associés avec une rupture de AAA. Dans l'analyse de régression logistique multivariée, en ajustant pour le Dmax et le sexe, les AAA avec un bombement plus haut situé et une surface moyenne plus élevée étaient associés à une rupture. Nos résultats préliminaires suggèrent que l'inclusion d'indices géométriques obtenus par segmentation de tomodensitométrie tend à améliorer la classification de AAA avec un risque de rupture par rapport à un modèle traditionnel seulement basé sur le Dmax et le sexe. De plus larges études longitudinales sont requises pour vérifier la validité du modèle proposé. Des simulations de flux et biomécaniques devraient être envisagées pour améliorer la prédiction du risque de rupture basée sur la modélisation d'anévrysmes. / This thesis was created in Word and converted to PDF using Mac OS X 10.7.5 Quartz PDFContext. Aorta Aortic rupture Abdominal Aortic Aneurysm Quantitative Analysis Diameter Volume Three-Dimensional Imaging Segmentation CT angiography Humans Aorte Rupture aortique Anévrysme de l'aorte abdominale Analyse quantitative Diamètre Volume Imagerie tridimensionnelle Segmentation Angiographie par tomodensitométrie Humains
120	Morphologic evaluation of ruptured abdominal aortic aneurysm by 3D modeling Tang, An 08 1900 (has links) No description available. Aorta Aortic rupture Abdominal aortic aneurysm Quantitative analysis Diameter Volume Three-Dimensional imaging Segmentation CT angiography Humans Aorte Rupture aortique Anévrysme de l'aorte abdominale Analyse quantitative Diamètre Volume Imagerie tridimensionnelle Segmentation Angiographie par tomodensitométrie Humains

Search results