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111	Impact of latest generation cardiac interventional X-ray equipment on patient image quality and radiation dose for trans-catheter aortic valve implantations Gislason-Lee, Amber J., Keeble, C., Malkin, C.J., Egleston, D., Bexon, J., Kengyelics, S.M., Blackman, D., Davies, A.G. 29 September 2016 (has links) Yes / Objectives: This study aimed to determine the impact on radiation dose and image quality of a new cardiac interventional X-ray system for trans-catheter aortic valve implantation (TAVI) patients compared to the previously-used cardiac X-ray system. Methods: Patient dose and image data were retrospectively collected from a Philips AlluraClarity (new) and Siemens Axion Artis (reference) X-ray system. Patient dose area product (DAP) and fluoroscopy duration of 41 patient cases from each X-ray system were compared using a Wilcoxon test. Ten patient aortograms from each X-ray system were scored by 32 observers on a continuous scale to assess the clinical image quality at the given phase of the TAVI procedure. Scores were dichotomised by acceptability and analysed using a Chi-squared test. Results: Significant reductions in patient dose (p<<0.001) were found for the new system with no significant change in fluoroscopy duration (p=0.052); procedure DAP reduced by 55%, fluoroscopy DAP by 48% and “cine” acquisition DAP by 61%. There was no significant difference between image quality scores of the two X-ray systems (p=0.06). Conclusions: The new cardiac X-ray system demonstrated a very significant reduction in patient dose with no loss of clinical image quality. Advances in Knowledge: The huge growth of TAVI may impact on the radiation exposure of cardiac patients and particularly on operators including anaesthetists; cumulative exposure of interventional cardiologists performing high volume TAVI over 30-40 years may be harmful. The Phillips Clarity upgrade including improved image enhancement and optimised X-ray settings significantly reduced radiation without reducing clinically acceptable image quality. Trans-catheter aortic valve implantation TAVI Cardiac interventional X-ray Radiation dose Image quality Radiology
112	[pt] ESTUDO DO ESCOAMENTO EM MODELO DE AORTA UTILIZANDO A VELOCIMETRIA POR IMAGENS ESTEREOSCÓPICAS DE PARTÍCULAS / [en] STEREOSCOPIC PARTICLE IMAGE VELOCIMETRY STUDY OF THE FLOW IN AORTIC MODEL GUILHERME MOREIRA BESSA 29 April 2019 (has links) [pt] A estenose aórtica é um dos mais graves problemas decorrentes de doenças valvares. O implante da prótese valvar aórtica por cateterismo (TAVI) vem se tornando o tratamento mais indicado aos pacientes de alto risco ou inoperáveis. A estenose aórtica grave pode ser uma condição de risco à vida quando não tratada. Devido à natureza do procedimento TAVI, é esperada uma variabilidade no ângulo de inclinação da válvula implantada. O presente trabalho investigou a influência das variações de inclinação e orientação do jato transvalvar sobre o escoamento em aorta ascendente. A compreensão dos padrões hemodinâmicos do fluxo sanguíneo em aorta ascendente é importante porque eles estão intimamente relacionados ao desenvolvimento de doenças cardiovasculares. Para este fim, um modelo vascular com geometria anatômica de paciente específico foi produzido a partir de imagens de tomografia computadorizada, gerando um protótipo impresso em 3D e resina de silicone transparente. Uma configuração especial foi projetada para permitir medições tridimensionais do fluxo em diferentes seções transversais do modelo aórtico. A técnica de velocimetria por imagens estereoscópicas de partículas foi implementada para produzir informações estatísticas acerca do fluxo turbulento, tais como, campos tridimensionais de velocidade média, de energia cinética turbulenta e correlações entre os componentes de flutuação de velocidade. Os resultados obtidos indicaram que o escoamento em aorta ascendente é fortemente afetado pela direção do fluxo de entrada na aorta. / [en] Aortic stenosis is one of the most serious problems arising from valve diseases. Transcatheter Aortic Valve Implantation (TAVI) has become the preferred treatment for high-risk or inoperable patients with severe aortic stenosis that could be a lifethreatening condition when left untreated. Due to the nature of the TAVI procedure, a variability on the tilt angle of the deployed valve is expected. The present work, investigated the effects on the flow field in the ascending aorta due angle variation of the transvalvular jet. Understanding the hemodynamic patterns of blood flow in the ascending aorta is important because they are closely related to the development of cardiovascular diseases. To this end, a patient-specific vascular phantom was produced by a 3D printed model and transparent silicon resin. A special setup was designed to allow measurements of the 3D flow at different cross sections of the aorta. A stereoscopic particle image velocimetry system was implemented to yield instantaneous and averaged turbulent flow information, such as three-dimensional average velocity fields, turbulent kinetic energy, and correlations between the components of velocity fluctuation. The results obtained indicated that the velocity field in the ascending aorta is strongly affected by the inlet flow direction into the aorta. [pt] ESCOAMENTO EM AORTA [pt] VALVULA AORTICA [en] AORTIC FLOW [en] AORTIC VALVE
113	[en] A NUMERICAL STUDY OF THE INFLUENCE OF THE INCLINATION OF THE AORTIC VALVE ON THE BLOOD FLOW IN THE ASCENDING AORTA. / [pt] ESTUDO NUMÉRICO DA INFLUÊNCIA DA INCLINAÇÃO DA PRÓTESE VALVAR AÓRTICA NO FLUXO SANGUÍNEO EM AORTA ASCENDENTE IVAN FERNNEY IBANEZ AGUILAR 07 October 2019 (has links) [pt] As patologias na valva aórtica representam umas das principais causas de óbito no mundo. Nos casos de estenose aórtica grave, a substituição da valva nativa é necessária. Existem dois mecanismos de substituição de valva aórtica: cirurgia convencional, através da toracotomia, ou o implante valvar aórtico percutâneo (TAVI, Transcatheter Aortic Valve Implantation). O posicionamento coaxial da prótese valvar em relação ao ânulo aórtico influência o fluxo sanguíneo transvalvar, podendo contribuir para o remodelamento aórtico, culminando em dilatações aneurismáticas, dissecção aórtica e processo aterosclerótico. O presente estudo avalia numericamente a influência do posicionamento coaxial da prótese valvar nas estruturas hemodinâmicas na região de aorta ascendente e início do arco aórtico, durante um ciclo cardíaco. A geometria anatômica avaliada corresponde a um modelo aórtico de um paciente que foi submetido ao implante valvar percutâneo. O escoamento foi obtido com o modelo de turbulência (K - W), utilizando o software ANSYS-Fluent. A interação entre a complacência aórtica e o fluxo sanguíneo durante o ciclo cardíaco foi obtida empregando simulações do tipo FSI (Fluid Structure Interaction). A metodologia numérica foi validada através de comparações com dados experimentais nobres do tipo PIV estereoscópico, com excelente concordância do campo de velocidade e tensões de Reynolds. Observou-se a importância do posicionamento coaxial da prótese valvar aórtica com relação ao direcionamento do jato e área de impacto na parede da aorta; influenciando na formação de regiões de recirculação na raiz da aorta e aorta ascendente; com diferentes estruturas coerentes (vórtices). Identificou-se as regiões de alta pressão e tensão de cisalhamento na parede da aorta, assim como de alta intensidade das grandezas turbulentas no volume interno da aorta. A partir da análise dos resultados foi possível sugerir que a posição coaxial ideal da prótese pode ser obtida quando é direcionada à parede esquerda da aorta com uma inclinação de 4 graus. / [en] Aortic valve pathologies are one of the leading causes of death in the world. In cases of severe aortic stenosis, replacement of the native valve is necessary. There are two mechanisms of aortic valve replacement: conventional surgery through thoracotomy or Transcatheter Aortic Valve Implantation (TAVI). Coaxial positioning of the valve prosthesis in relation to the aortic annulus influences on the transvalvar blood flow, which may contribute to aortic remodeling, culminating in aneurysmal dilations, aortic dissection and atherosclerotic process. The present thesis evaluates the influence of the coaxial positioning of the valve prosthesis on hemodynamic structures in the ascending aorta and the beginning of the aortic arch, during a cardiac cycle. The anatomical geometry evaluated was the aortic model of a specific patient after being submitted to percutaneous valve implantation procedure. The flow was obtained with the (K - W) turbulence model, using ANSYS-Fluent software. Interaction between aortic compliance and blood flow during the cardiac cycle was obtained using simulations FSI (Fluid Structure Interaction). The numerical methodology was validated through comparisons with noble experimental data obtained from stereoscopic PIV method, with excellent agreement of the velocity field and Reynolds stress. It was observed the importance of the coaxial positioning of the aortic valve prosthesis in relation to the jet direction and the impact area in the aortic wall, influencing the formation of recirculation regions in the aortic root and ascending aorta; with different coherent structures (vortices). The regions of high pressure and shear stress were identified in the aortic wall, as well as high intensity turbulent quantities in the internal aortic volume. From the results analysis it was possible to suggest that the ideal coaxial position of the prosthesis can be obtained when it is directed to the left wall of the aorta with an inclination of 4 degrees. [pt] AORTA [pt] CICLO CARDIACO [pt] INTERACAO FLUIDO ESTRUTURA FSI [pt] VALVA AORTICA [en] AORTA [en] CARDIAC CYCLE [en] INTERACTION FLUID STRUCTURE FSI [en] AORTIC VALVE
114	Design of tissue leaflets for a percutaneous aortic valve Smuts, Adriaan Nicolaas 03 1900 (has links) MScEng / Thesis (MScEng (Mechanical and Mechatronic Engineering))--University of Stellenbosch, 2009. / In this project the shape and attachment method of tissue leaflets for a percutaneous aortic valve is designed and tested as a first prototype. Bovine and kangaroo pericardium was tested and compared with natural human valve tissue by using the Fung elastic constitutive model for skin. Biaxial tests were conducted to determine the material parameters for each material. The constitutive model was implemented using finite element analysis (FEA) by applying a user-specified subroutine. The FEA implementation was validated by simulating the biaxial tests and comparing it with the experimental data. Concepts for different valve geometries were developed by incorporating valve design and performance parameters, along with stent constraints. Attachment techniques and tools were developed for valve manufacturing. FEA was used to evaluate two concepts. The influence of effects such as different leaflet material, material orientation and abnormal valve dilation on the valve function was investigated. The stress distribution across the valve leaflet was examined to determine the appropriate fibre direction for the leaflet. The simulated attachment forces were compared with suture tearing tests performed on the pericardium to evaluate suture density. In vitro tests were conducted to evaluate the valve function. Satisfactory testing results for the prototype valves were found which indicates the possibility for further development and refinement. Constitutive model for skin Dissertations -- Mechatronic engineering Theses -- Mechatronic engineering Heart valve prosthesis Finite element method Aortic valve Skin
115	Structural design of a stent for a percutaneous aortic heart valve Esterhuyse, Anton 03 1900 (has links) Thesis (MScEng (Mechanical and Mechatronic Engineering))--University of Stellenbosch, 2009. / Elderly patients suffering from aortic valvular dysfunction are often denied aortic valve replacement due to the fact that they are classified as too old and fragile to handle the physical stress of open-heart surgery and cardio-pulmonary bypass. There exists a need for an alternative solution which places less physical stress on the body. The development of a percutaneous aortic heart valve (PAHV), which may be implanted through a minimally invasive procedure, will provide a solution to old and fragile patients who otherwise have a very limited life expectancy. The development of such a device entails a costly and time-consuming process which involves a number of phases, including a prototype development phase, an in-vitro testing phase, an animal trial phase and a human trial phase. This thesis focuses on the design and analysis of the stent component for a PAHV, suitable for implantation in sheep (animal trial phase). The process of developing a first prototype, involved an analysis of the stent design requirements. This analysis was followed by a concept generation phase as well as comprehensive finite element (FE) analyses of the most promising concepts. The objective of the FE analyses was to determine the effects of a variation in strut width on the performance characteristics of the concepts. Based on the results of the FE analyses, final geometries were selected for each of the two most promising concepts. Subsequent to the selection of the final geometries, a number of prototypes were manufactured. The prototypes were subjected to an electro-polishing process. An experimental analysis was also conducted on the prototypes to evaluate the accuracy of the (FE) simulations as well as the actual performance of the stent prototypes. The results of the FE analyses and experimental analyses indicated that strut width had a substantial influence on the parameters that were defined to characterise stent performance. The results of the analyses also highlighted the advantages and disadvantages of each concept and aided in identifying the concept that would be most suitable for the required application. Limitations of the study were identified and recommendations were made to assist the continued research and development of the device. Interventional cardiology Dissertations -- Mechanical engineering Theses -- Mechanical engineering Heart -- Surgery Stents (Surgery) Aortic valve Mechanical and Mechatronic Engineering
116	<i>Chlamydophila pneumoniae in Cardiovascular Diseases</i> : <i>Clinical and Experimental Studies</i> Edvinsson, Marie January 2008 (has links) <p><i>Chlamydophila pneumoniae</i> (<i>C. pneumoniae</i>) has been suggested as a stimulator of chronic inflammation in atherosclerosis. <i>C. pneumoniae</i> DNA was demonstrated in aortic biopsies in 50% of patients with stable angina pectoris or acute coronary syndrome undergoing coronary artery bypass grafting. <i>C. pneumoniae</i> mRNA, a marker of replicating bacteria, was demonstrated in 18% of the aortic biopsies. </p><p>Inflammation may have a role in the pathogenesis of thoracic aortic aneurysm, aortic dissection and aortic valve stenosis. <i>C. pneumoniae </i>DNA was demonstrated in aortic biopsies in 26% of thoracic aortic aneurysm patients and in 11% of aortic dissection patients undergoing thoracic surgery and in 22% of stenotic aortic heart valves from patients undergoing aortic valve replacement. No bacterial mRNA was demonstrated in these aortic biopsies, nor in the valves, suggesting that the infection has passed into a persistent state. <i>C. pneumoniae</i> DNA was demonstrated in peripheral blood mononuclear cells in only 5% of aortic valve stenosis patients and not in thoracic aortic aneurysm or aortic dissection patients, suggesting that the bacterium disseminated to the cardiovascular tissue long before the patient required surgery. The copper/zinc ratio in serum, a marker of infection/inflammation, was significantly elevated in thoracic aortic aneurysm patients, supporting an inflammatory pathogenesis. Patients positive for <i>C. pneumoniae</i> in the aortic valve had more advanced coronary atherosclerosis, further supporting a possible role for <i>C. pneumoniae</i> in atherosclerosis. </p><p>Mice were infected with <i>C. pneumoniae</i> that disseminated to all organs investigated (i.e. lungs, heart, aorta, liver and spleen). Trace element concentrations were altered in infected animals with an increased copper/zinc ratio in serum, a progressively increased iron concentration in the liver and a progressively decreased iron concentration in serum. Iron is important for <i>C. pneumoniae</i> metabolism, and a changed iron homeostasis was noted in infected mice by alterations in iron-regulating proteins, such as DMT1 and hepcidin.</p> Communicable diseases Chlamydophila pneumoniae Chlamydia pneumoniae trace elements atherosclerosis aortic valve stenosis thoracic aortic aneurysm aortic dissection hepcidin iron Infektionssjukdomar
117	Mechanical and Histological Characterization of Porcine Aortic Valves under Normal and Hypercholesterolemic Conditions Sider, Krista 12 December 2013 (has links) Calcific aortic valve disease (CAVD) is associated with significant cardiovascular morbidity. While late-stage valve disease is well-described, there remains an unmet scientific need to elucidate early pathobiological processes. In CAVD, pathological differentiation of valvular interstitial cells (VICs) and lesion formation occur focally in the fibrosa layer. This VIC pathological differentiation has been shown to be influenced by matrix stiffness in vitro. However, little is known about the focal layer specific mechanical properties of the aortic valve in health and disease and how these changes in matrix moduli may influence VIC pathological differentiation in vivo. In this thesis, micropipette aspiration (MA) was shown to be capable of measuring the mechanical properties of a single layer in multilayered biomaterial or tissue such as the aortic valve, if the pipette inner diameter was less than the top layer thickness. With MA, the fibrosa of normal porcine aortic valves was significantly stiffer than the ventricularis; stiffer locations found only within the fibrosa were comparable to stiffnesses shown in vitro to be permissive to VIC pathological differentiation. Early CAVD was induced in a porcine model, which developed human-like early CAVD lesion onlays. Extracellular matrix remodeling occurred in the absence of lipid deposition, macrophages, osteoblasts, or myofibroblasts, but with significant proteoglycan-rich onlays and chondrogenic cell presence. These early onlays were softer than the collagen-rich normal fibrosa, and their proteoglycan content was positively correlated with Sox9 chondrogenic expression, suggesting that soft proteoglycan-rich matrix may be permissive to chondrogenic VIC differentiation. The findings from this thesis shed new light on early disease pathogenesis and improve the fundamental understanding of aortic valve mechanics in health and disease. heart valve aortic valve disease micromechanical testing micropipette aspiration multilayered biomaterial histology porcine animal model hypercholesterolemia proteoglycan lipid Sox9 0541
118	Caracterização e mecanismos do desequilíbrio redox na fisiopatologia da estenose valvar aórtica degenerativa / Characterization and mechanisms of redox imbalance in pathophysiology of degenerative aortic valve stenosis Liberman, Marcel 20 August 2007 (has links) Para investigar se estresse oxidativo contribui para a progressão da calcificação/estenose valvar aórtica (VA), avaliamos a produção de espécies reativas de oxigênio (ERO) e efeitos dos antioxidantes tempol e ác. lipóico em modelo de calcificação VA em coelhos. Superóxido, H2O2 e 3-nitrotirosina aumentaram em células inflamatórias e principalmente nos núcleos de calcificação, juntamente com as subunidades p22phox, Nox2 da NADPH oxidase e da proteína dissulfeto isomerase, que co-localizam. PCR mostrou aumento da Nox4 em relação a Nox1. A calcificação foi menor com ác.lipóico e maior com tempol, coicidindo com resultados de modelo in vitro em células musculares lisas. VA humanas estenóticas tiveram aumento semelhante de ERO e da expressão protéica em torno da calcificação. Estresse oxidativo pode contribuir para a progressão da estenose aórtica. / To invetigate whether oxidative stress contributes to aortic valve (AV) calcification/stenosis progression, we assessed reactive oxygen species (ROS) production and effects of antioxidants tempol and lipoic acid in a rabbit AV calcification model. Superoxide, H2O2 and 3-nitrotyrosine increased in inflammatory cells and mainly in calcifying nuclei, coincident with NADPH oxidase subunits p22phox, Nox2 and protein disulfide isomerase, which co-localized. PCR showed switch from Nox1 to Nox4. Calcification was smaller with lipoic acid and greater with tempol, similar to an in vitro smooth muscle cell calcification model results. Human stenotic AV had analogous increase in ROS and protein expression around calcifying nuclei. Oxidative stress can contribute to AV stenosis progression. Antioxidantes Antioxidants Aortic valve stenosis Calcificação fisiológica Coelhos Estenose da valva aórtica Estresse oxidativo Oxidative stress Physiologic calcification Rabbits
119	Caractérisation mécanique et modélisation numérique des tissus de valve aortique / Mechanical characterization and numerical modeling of aortic valve tissues Laville, Colin 13 September 2017 (has links) L’objectif de cette thèse de doctorat est de développer des outils expérimentaux et numériques pour la caractérisation mécanique et la modélisation des tissus, naturels ou artificiels, de valve aortique. Ces outils sont destinés à être utilisés pour l'élaboration de nouveaux implants biomimétiques en matériaux polymères. Chaque année, près de 300 000 prothèses de valves sont implantées à travers le monde. Ces implants peuvent être de deux types~: mécaniques ou biologiques. Les deux solutions souffrent cependant d'inconvénients majeurs. Dans ce contexte, les prothèses en matériaux polymères représentent une alternative prometteuse même si elles ne disposent pas encore de propriétés mécaniques suffisantes. Dans ce travail, un protocole expérimental combinant essais de traction biaxiale, mesure de champs et microscopie confocale est proposé. La mise au point de nouveaux implants peut aussi largement bénéficier de la modélisation numérique afin d'étudier leur comportement mécanique. Ainsi, un solveur structure et un solveur fluide ont été implémentés et couplés. À partir des résultats expérimentaux, les modèles de comportements ont été calibrés en utilisant une procédure d'analyse inverse. / This PhD thesis aims to develop experimental and numerical tools for the mechanical characterization and the numerical modeling of natural or artificial aortic valve tissues. These tools are intended to be used for the development of new biomimetic polymeric implants. Nowadays, almost 300 000 prosthetic valves are implanted every year worldwide. Two families of prosthetic valves are currently available~: mechanical and biological prostheses. However, both solutions suffer from major drawbacks. In this context, polymeric prostheses represent a promising alternative but currently suffer from insufficient material properties to be suitable for a long--lasting implantation. In this work, an experimental protocol using biaxial tensile tests together with full--field surface measurement and confocal microscopy is proposed. Since numerical simulation is intended to assist the design phase of new implants by predicting their mechanical behavior, a structure and a fluid solver are developed and coupled. Using experimental results, implemented constitutive models are calibrated through an inverse analysis procedure. Valve aortique Mesure de champs Hyperélasticité Analyse inverse Aortic valve Full-Filed measurement Hyperelasticity Inverse analysis 620.11 Matériaux
120	Stent pour implantation percutanée d'une valve cardiaque / Stent for percutaneous heart valve implantation Marchand, Coralie 22 May 2009 (has links) Cette étude à pour but de développer un concept de stent atraumatique pour le remplacement percutanée de la valve aortique. Le stent est obtenu à partir de brins de Nitinol tressés, ce qui lui permet, de part sa géométrie et sa structure, d'être compressible, auto-expansible, et atraumatique. Le principe de fabrication des prototypes et les contraintes qui lui est associé sont présentées. Les performances de ces prototypes, en terme d'ancrage, de régurgitation statique et de régurgitation dynamique sont ensuite évaluées par des essais in vitro, pour lesquel le banc de test en flux pulsé a été optimisé afin de prendre en considération la compliance de la racine aortique. Les résultats obtenus permettent de mettre en évidence les différents paramètres de fabrication stent, tant au niveau dimensionnel (hauteur du cylindre, angle du cône...) qu'au niveau structurel (rigidité), qui ont une influence significative sur le comportement de l'endoprothèse. / The goal of this work is to develop an atraumatic stent concept for percutaneous aortic valve replacement. Shape setted braided nitinol wires, thanks to their specific geometry and elasticity, allows stent's compressibility, self deployment and aortic root preservation. Prototypes manufacturing technique and relatives constraints are presented. Performance of the obtained prototypes are evaluated in vitro, in terms of sealing, static and dynamic regurgitation. More specifically, the pulsatile bench testing has been optimized to take in account the compliant constraint of the aortic valve environment. The results bring to the fore which are the dimensions (head height, cone angle...) and the structures features that do influence the endoprosthesis behavior significantly. Valve cardiaque Valve aortique Stent Prothèse Endoprothèse Implantation percutanée Heart valve Aortic valve Prosthesis Endoprosthesis Percutaneous implantation

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