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Physiopathologie et génétique de la bicuspidie aortique non syndromique / Genetics and pathophysiology of bicuspid aortic valveTheron, Alexis 08 September 2017 (has links)
La bicuspidie aortique représente la malformation cardiaque congénitale la plus fréquente, affectant environ 2% de la population. Paradoxalement, le mécanisme de dégénérescence accélérée d’une valve bicuspide n’est pas encore élucidé. Ce travail s’appuie sur l’analyse de modèles animaux et sur l’analyse d’une cohorte prospective de 300 patients porteurs d’une valve aortique bicuspide.Notre cohorte de 300 patients nous a permis de chercher à identifier de nouveaux gènes impliqués dans la bicuspidie aortique par des approches de séquençage nouvelle génération, mais aussi par une approche de gène candidat. La comparaison des données cliniques et échographiques des patients porteurs de bicuspidie aortique avec et sans dysfonctionnement nous a permis d’établir une corrélation entre le phénotype de la bicuspidie et fonction valvulaire.Ce travail a eu pour objectif d’améliorer la compréhension de la physiopathologie de la bicuspidie aortique en identifiant de nouveaux gènes candidats et d’acquérir une meilleure connaissance du processus de dégénérescence valvulaire accélérée par le biais de modèles murins et d’études cliniques. / Bicuspid Aortic Valve (BAV) is the most common congenital heart defect, affecting about 2% of the population. BAV is a heritable trait, but the genetic basis underlying this defect remains unclear. BAV is associated with an excess of morbidity and mortality related to several complications such as accelerated valve degeneration that required earlier and more frequent referral for surgery. Despite its burden, the mechanism underlying BAV degeneration has not been elucidated. Aortic valve replacement constitutes a late response to a disease whose diagnosis is often carried out earlier, at the stage of non-severity. My thesis aims to identify the pathophysiology of BAV and to investigate the mechanisms involved in BAV degeneration. Thus, this study was based on the analysis of animal models and on the examination of a prospective cohort of 300 patients with BAV. Three hundred patients with BAV were prospectively included in our cohort to identify new genes involved in BAV by next generation sequencing and candidate-gene approach. The objective of this thesis was to improve our understanding of the pathophysiology of BAV and to assess the mechanisms underlying BAV degeneration by analyzing animal and clinical models.
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Determining the effect of congenital bicuspid aortic valves on aortic dissection using computational fluid dynamicsBurken, Jennifer Ann 01 July 2012 (has links)
A normal aortic valve has three leaflets; however, 1- 2% of children are born with an aortic valve with two leaflets, referred to as congenital bicuspid aortic valves (BAV). Recent in vivo studies have shown that flow development past the bicuspid valves into the ascending aorta is markedly different from that past the normal tri-leaflet aortic valve. This difference may lead to the bicuspid valve having a higher rate of ascending aortic root dissection, a pathology that can potentially result in fatality. Using computational fluid dynamics we aim to evaluate the alterations in flow development in the ascending aorta with BAV compared to healthy tri-leaflet valves (TAV) and relate the alterations in flow-induced stresses with higher incidences of aortic dissection in patients with BAV. Simplified models based on the geometry and dimensions from published literature were developed. The preliminary results show that there is a difference in flow development between the BAV and the tri-leaflet valve. This is visible by the differences in wall shear stress and dynamic pressure distribution in the ascending aorta. The conclusion drawn from this is that there are marked differences in the ascending aortic flow development with BAV compared to that with TAV which may lead to dissection of the aortic arch.
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Uptake of Screening and Recurrence of Bicuspid Aortic Valve and Thoracic Aortic Aneurysm among At-risk SiblingsMiller, Daniel E. 29 September 2021 (has links)
No description available.
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Gata6 Haploinsufficiency Leads to Aortic Valve, Conduction System and Limbs DefectsGharibeh, Lara 03 May 2018 (has links)
Cardiovascular diseases are the leading cause of morbidity and mortality worldwide. Congenital heart disease (CHD) is a risk factor for premature cardiovascular complications. Great advances have occurred in the past years leading to the identification of several genes essential for proper cardiac formation such as GATA4/5/6 mutated in some individuals with CHD. GATA6 is a zinc finger transcription factor whose presence is crucial for early embryonic development. GATA6 is expressed in many cell types of the heart including myocardial, endocardial, neural crest, and vascular smooth muscle. In human, mutations in GATA6 result in variable cardiac phenotypes. The objective of this thesis was to determine the roles that GATA6 play in the different cell types of the heart and to elucidate the molecular basis of the cardiac defects associated with Gata6 haploinsufficiency. For this, a combination of cell and molecular techniques were used in vitro and in vivo. First, we show that Gata6 heterozygozity leads to RL-type bicuspid aortic valve (BAV)- the most common CHD affecting 2% of the population. GATA6-dependent BAV is the result of disruption of valve remodeling and extracellular matrix composition in Gata6 haploinsufficient mice. Cell-specific inactivation of one Gata6 allele from Isl-1 positive cells, but not from endothelial or neural crest cells, recapitulates the phenotype of Gata6 heterozygous mice revealing an essential role for GATA6 in secondary heart field myocytes during valvulogenesis. We further uncovered a role for GATA6 as an important regulator of the cardiac conduction system and revealed that GATA6 expression regulates the activity of the cardiac pacemaker. GATA6 exerts its role via regulation of the cross-talk among the different cell types of the SAN. Lastly, some CHDs are characterized by abnormalities of both the limbs and the heart such as the Holt Oram syndrome (caused by mutation in TBX5 transcription factor). The molecular basis for limb-heart defects remain poorly understood. In the course of this work, we discovered that Gata6 haploinsufficiency resulted in a partially penetrant polysyndactyly (extra digits fused together) phenotype. Together, the data provide novel molecular and cellular insight into GATA6 role in normal and pathologic heat development. Our results also suggest that GATA6 should be added to the list of genes whose mutations are potentially associated with heart and limb abnormalities. Better knowledge of the molecular basis of CHD is a prerequisite for the development of diagnostic and therapeutic strategies to improve care of individuals with congenital heart disease.
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BICUSPID AORTIC VALVE AND ASSOCIATED AORTIC ANEURYSM PHENOTYPES: CLINICAL AND PATHOLOGIC ASSOCIATIONSWojnarski, Charles M. 03 June 2015 (has links)
No description available.
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New insights into the left ventricular morphological and functional changes in patients with bicuspid aortic valve diseaseDisha, Kushtrim 05 December 2018 (has links)
No description available.
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Le syndrome de Marfan et pathologies associées : identification de nouveaux gènes impliqués dans la bicuspidie de la valve aortique / Marfan syndrome and related disorders : identification of new genes involved in bicuspid aortic valvePinard, Amélie 06 July 2016 (has links)
Le syndrome de Marfan (MFS) est une maladie génétique rare. Les signes cliniques sont principalement squelettiques, oculaires et cardiovasculaires. Le premier gène identifié est FBN1. Une LSDB UMD créée en 1995 a permis de colliger les mutations identifiées chez les patients. D’autres gènes ont été identifiés comme causant des syndromes apparentés : FBN2, TGFBR1, TGFBR2, ACTA2, SMAD3, MYH11 et MYLK. Ma thèse avait pour but de mettre à jour ces différentes bases et de créer celles des nouveaux gènes. Les techniques de séquençage nouvelle génération dans la pratique clinique amènent des médecins non spécialistes à rapporter des variations secondaires dans ces gènes « actionable ». Il s’agit de la ressource la plus complète pour les cliniciens et les généticiens pour interpréter les variants associés au MFS et ses pathologies associées pour les variants primaires et secondaires.La bicuspidie de la valve aortique (2 feuillets au lieu de 3) est la malformation cardiovasculaire la plus fréquente touchant 0,6 à 2 % de la population. Ma thèse avait pour but d’identifier de nouveaux gènes impliqués dans la BAV. Grâce à une cohorte de 200 patients, le gène HOXA1, un facteur de transcription, a pu être examiné de manière plus approfondie. Alors qu’il contient une répétition de 10 histidines, les individus hétérozygotes mutés en présentent 11. Mes études ont permis de démontrer l’imputabilité de cette mutation. Dans un second temps, un séquençage d’exomes entiers a permis de mettre en évidence de nouveaux variants prédits pathogènes. Ces données permettront de mieux comprendre le rôle physiologique d’HOXA1 et des nouveaux gènes candidats dans la pathogénèse de la BAV chez l’humain. / Marfan Syndrome is a rare genetic disorder. Clinical signs are mainly skeletal, ocular and cardiovascular. The first gene identified is FBN1. A LSDB UMD was created in 1995 to colligate all the mutations identified in. Thereafter, several others genes were identified involved in related disorders : FBN2, TGFBR1 and TGFBR2, ACTA2, SMAD3, MYH11 and MYLK. The objectives of my PhD were to update these databases and to create new ones for genes. Next generation sequencing in clinical practice leads non-specialized doctors to report pathogenic secondary variants in “actionable” genes. Our databases are the only resources providing access to the full spectrum of known pathogenic mutations with checked and interpreted data from many reference diagnostic laboratories and research centers worldwide, and the most comprehensive resources for clinicians and geneticists to interpret variations linked to Marfan syndrome and related disorders not only primary but also secondary variants.Bicuspid Aortic Valve is the most common cardiovascular malformation affecting 0.6-2% of the population (2 leaflets instead of 3). Thanks to a cohort of 200 BAV patients, HOXA1 gene, a transcription factor, has been screened. While HOXA1 contains a string of 10 histidine repeats, these individuals are heterozygous for an 11 histidine repeat variant. My studies showed the imputability of this mutation. In a second phase, whole exome sequencing allow us to highlight new variants predicted pathogenic. Studies are still ongoing to confirm their imputability. These data contribute to our better understanding of the physiological of HOXA1 and new candidate genes in the pathogenesis of BAV disease in humans.
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Design of a Novel Tissue Culture System to Subject Aortic Tissue to Multidirectional Bicuspid Aortic Valve Wall Shear StressLiu, Janet 07 June 2018 (has links)
No description available.
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Bikuspide Aortenklappe und Dilatation der Aorta ascendensBauer, Matthias Dirk 29 April 2005 (has links)
Die bikuspide Aortenklappe gilt als Risikofaktor für das frühzeitige und häufige Auftreten von Aortenklappenvitien, Aneurysmen und Dissektionen. Das Ziel dieser Arbeit ist es, ein begründetes chirurgisches Therapiekonzept für Patienten mit bikuspider Aortenklappe und Dilatation der Aorta ascendens zu entwickeln. Wir analysierten die Daten von 555 Patienten mit bikuspider und 2015 Patienten mit trikuspider Aortenklappe, die sich in unserer Einrichtung einer Operation an der Aortenklappe und/ oder einem Eingriff im Bereich der Aorta ascendens unterzogen. Die Aorta ascendens wurde angiographisch, echokardiographisch und mittels CT auf ihre Konfiguration analysiert und histologisch und histomorphometrisch beschrieben. Auch wurden die Langzeitergebnisse nach Aorta ascendens Reduktionsplastik erfasst. Bei Patienten mit bikuspider Aortenklappe sind mit zunehmendem Durchmesser der Aorta ascendens häufiger die histologischen Zeichen einer Dilatation zu finden. Schwerere strukturelle Veränderungen, insbesondere eine höhergradige zystische Medianekrose, sind nicht zu beobachten. Die Aorta Ascendens Reduktionsplastik zeigt bei Patienten mit bikuspider Aortenklappe und Dilatation der Aorta ascendens gute Langzeitergebnisse. Nur bei Patienten mit nicht optimaler Durchmesser-Reduktion bei der Operation kommt es zu einer späteren Redilatation. / The bicuspid aortic valve is a known risk factor for the early and frequent occurrence of aortic valve defects, aneurysms and dissections. This study aims to develop an appropriate surgical therapy concept for patients with bicuspid aortic valve and dilatation of the ascending aorta. The data of 555 patients with bicuspid and 2015 patients with tricuspid aortic valve who underwent surgical treatment of the aortic valve and/or of the ascending aorta at our institution were evaluated. We analyzed the configuration of the ascending aorta by angiography, echocardiography and CT and described the aortic wall by histological and histomorphometric examination. We also analyzed the long-term results after reduction aortoplasty of the ascending aorta. Histological examination of the aortic wall specimens showed that patients with bicuspid aortic valve with increased diameter of the ascending aorta more often have histological signs of dilatation. More severe histological changes such as cystic media necrosis did not occur. Reduction aortoplasty of the ascending aorta shows good long-term results in patients with bicuspid aortic valve and dilatation of the ascending aorta. Only in patients in whom surgical reduction is less than optimal does redilatation occur later.
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The fluid shear stress environment of the normal and congenital bicuspid aortic valve and the implications on valve calcificationYap, Choon Hwai 18 August 2011 (has links)
Calcific aortic valve disease is highly prevalent, especially in the elderly. Currently, the exact mechanism of the calcification process is not completely understood, limiting our ability to prevent or cure the disease. Ex vivo investigations, however, have provided evidence that the aortic valve's biological response is sensitive to mechanical forces, including fluid shear stresses, leading to the hypothesis that adverse fluid shear stress environment play a role in leading to valve calcification. This thesis seeks to investigate this hypothesis. A method for performing experimental measurement of time-varying shear stress on aortic valve leaflets under physiologic flow conditions was first developed, based on the Laser Doppler Velocimetry technique, and was systematically validated. This method was then applied to both the aortic surface and the ventricular surface of a normal tricuspid the aortic valve, and then on a congenital bicuspid aortic valve, using suitable in vitro valve models and an in vitro pulsatile flow loop. It was found that in the tricuspid valve, the peak shear stress on the aortic surface under adult resting condition was approximately 15-19 dyn/cm². Aortic surface shear stresses were elevated during mid- to late-systole, with the development of the sinus vortex, and were low during all other instances. Aortic surface shear stresses were observed to increase with increasing stroke volume and with decreasing heart rate. On the ventricular surface, shear stresses had a systolic peak of approximately 64-71 dyn/cm² under adult resting conditions. During late systole, due to the Womersley effect, shear stresses were observed to reverse in direction to a substantial magnitude for a substantial period of time. Further, it was found that a moderately stenotic bicuspid aortic valve can experience excessive unsteadiness in shear stress experienced by its leaflets, most likely due to the turbulent forward flow resulting from the stenosis, and due to the skewed forward flow. To demonstrate that the measured shear stresses can have an effect on the aortic valve biology, ex vivo experiments were performed in specific to determine the effects of these various shear stress characteristics on the biological response of porcine aortic valve leaflets, using the cone and plate bioreactor. It was found that unsteady shear stress measured in the bicuspid valve resulted in increased calcium accumulation. Further, it was found that low shear stresses and high frequency shear stresses resulted in increased calcium accumulation. Thus, shear stress was found to affect aortic valve pathology, and low and unsteady fluid shear stresses can enhance pathology.
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