Auswahl der wissenschaftlichen Literatur zum Thema „Anévrisme de l'aorte abdominale – Modèles mathématiques“
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Dissertationen zum Thema "Anévrisme de l'aorte abdominale – Modèles mathématiques"
Saccaro, Ludovica. „Vers l'évaluation du risque des anévrismes de l'aorte abdominale par modélisation géométrique et simulations hémodynamiques d'ordre réduit“. Electronic Thesis or Diss., Bordeaux, 2024. http://www.theses.fr/2024BORD0025.
Der volle Inhalt der QuelleThis thesis focuses on a specific pathology affecting the abdominal section of the aorta, known as abdominal aortic aneurysm (AAA). An aneurysm involves a persistent and localized weakening of the vessel wall, leading to enlargements and bulges, causing recirculation and turbulence of blood flow.Our thesis outlines a methodology for geometric modeling of abdominal aneurysms. The process involves acquiring CT images, reconstructing the aorta 3D geometry, and isolating the aneurysm. The modeling phase begins by identifying and approximating the centerline of the aortic vessel using B-spline functions. The aortic wall is then partitioned and profiled using Fourier series.To evaluate its effectiveness, the developed technique is applied to a dataset of CT scans from patients. Reconstructions obtained from the scans are also presented as examples to detail each step of the procedure. In addition, a quantitative evaluation and rationale behind modeling parameters are explained. Then, as a first application, the modeling is integrated into a registration process for clinical diagnosis and follow-up.The geometrical modeling procedure developed is used in a pipeline for hemodynamic simulations and risk assessment, employing a reduced-order modeling approach to construct a reduced solution space. Simulations, utilizing parameterized geometries, are conducted under realistic conditions, and risk indicators are computed and linked to the geometrical representation using Radial Basis Functions interpolant. Finally, predictions on risk indicators are obtained for an unknown geometry. The results, despite being promising, can be further improved by appropriately augmenting the initial dataset.To address the aforementioned scarcity of clinical data, we devised an automated workflow for generating synthetic geometries. This approach allows for the identification of relevant geometry parameters and involves machine learning to generate a virtual patient population consistent with the original data. In addition to improving the predictive capability of reduced models, the method can also be applied prospectively for in-silico trials and studies involving virtual patient populations
Coscas, Raphaël. „Remodelage vasculaire dans les modèles expérimentaux d'anévrysme de l'aorte abdominale“. Thesis, Université Paris-Saclay (ComUE), 2017. http://www.theses.fr/2017SACLV025/document.
Der volle Inhalt der QuellePathophysiology of abdominal aortic aneurysms (AAA) is complex. It mainly involves hemodynamics, matrix proteolysis, oxidative stress and an immune reaction. Several experimental models have been described to explore mechanisms involved in this disease. In the present work, we explore the role of experimental models in AAA vascular remodeling. First, a literature review regarding experimental models of AAA is performed. Second, we explore the origin and the role of calcifications observed in experimental models. Third, the decellularized xenograft model is used to study the role of adaptive immunity in triggering rupture. Our review identifies main AAA models. Their major limit is aortic healing, preventing evolution toward rupture. We find that AAA calcifications co-localized with free DNA and that free DNA could induce calcifications experimentally. However, AAA growth is decreased by calcifications. The decellularized xenograft model can evolve toward rupture when pre-sensitization against the extracellular matrix is performed. Structural glycoproteins and proteoglycans seems to be the main matrix component involved in these ruptures. Experimental AAA models are major tools to study mechanisms involved in vascular remodeling
Rouer, Martin. „Traitement pharmacologique des anévrismes de l'aorte abdominale sous rénale. Intérêt du développement de modèle murins d'exclusion endovasculaire. L'avenir est-il au développement d'endoprothèses actives ?“ Thesis, Normandie, 2017. http://www.theses.fr/2017NORMR120/document.
Der volle Inhalt der QuelleAbdominal aortic aneurysm (AAA) pathophysiology is multifactorial. From the athero-thrombotic plaque to a threatening aneurysm, hemodynamic, proteolysis, oxidation and inflammation play a complex but interdependent role. No pharmacological treatment has yet proved to be efficient. In this work, we study 2 potential pharmacological targets, and develop a murine model of endovascular abdominal aneurysm repair (EVAR). Rapamycine is used in oncology. Its anti-inflammatory, anti-proliferative and antiangiogenic properties stabilized aneurysm progression on an established AAA. AZD9668 is an elastase selective inhibitor. Secreted by neutrophils, this protease plays a key role in aneurysmal pathophysiology. Its therapeutic benefits have been study on a murine AAA model potentiated by Porphyromonas Gingivalis systemic injection, maintaining inflammatory reaction and wall proteolysis. Then, we developed a murine endovascular aneurysm exclusion model. EVAR raised new concern, underlining the crucial role of the thrombus biological activity. Endovascular AAA exclusion on big animals is complex and expensive. We hence described the technic on a rat AAA well known model. Pharmacological AAAs treatment has proved to be efficient on murine models, but is hard to transpose to humans because of systemic side effects. An endoluminal treatment carrying active drugs, and delivered in-situ, could durably stabilize AAAs
Alric, Pierre. „Chirurgie aortique et fonction rénale“. Montpellier 1, 2002. http://www.theses.fr/2002MON1T018.
Der volle Inhalt der QuelleBartoli, Michel. „Eléments de physiopathologie et validation d'une technique de mesure par IRM des anévrysmes de l'aorte abdominale dans un modèle expérimental murin“. Thesis, Aix-Marseille, 2012. http://www.theses.fr/2012AIXM5011/document.
Der volle Inhalt der QuelleAbdominal aortic aneurysms occur in 5-9% of the population over the age of 65, and rupture of these aneurysms cause every year at least 15,000 deaths. Although most AAAs are small and asymptomatic, their diameter typically increases over time and about 60% eventually require surgical repair. To date, no therapy can slow or stop the growth of small aneurysms. The aneurysmal wall is characterized by chronic inflammation and tissue remodeling involving synthesis and destruction that leads to the loss of elastin. All these elements are present in the elastase model of aneurysm in mice. While many data have been accumulated on the involvement of metalloproteinases in the degradation of the extracellular matrix, the role of serine proteases has received much less interest. Using this model in mice cathepsin S and cathepsin C knockout, we have shown that their presence was essential for aneurysmal development. We also showed that it was possible to block the model using E64, an inhibitor of cathepsins. Taken together these data suggest that cathepsins play a role in the initiation of the inflammatory reaction and that cathepsins are a potential way of research for the development of medication which could slow down the AAAs growth. In order to block by pharmacological means the model, we developed the possibility to infuse doxycyline directly on the aneurysm. These studies showed that it was possible to block the model with an infusion of local doxycycline without blood levels of doxycycline. This experimental work opens the way for the development of drug-eluting stent graft, i.e. a stent graft able to infuse an active product which can stabilize the wall of the aneurysm