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Aspects of intraoperative ablation for atrial fibrillation /Johanson, Birgitta, January 2009 (has links)
Diss. (sammanfattning) Göteborg : Univ. , 2009. / Härtill 4 uppsatser.
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Analyse et modélisation d'électrocardiogrammes dans le cas de pathologies ventriculairesKhaddoumi, Balkine Rix, Hervé January 2005 (has links)
Thèse de doctorat : Automatique et traitement du signal et des images : Nice : 2005. / Bibliogr. p. 134-142. Résumés en français et en anglais.
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Quality of life in atrial fibrillationSin, Pui-yee., 冼佩儀. January 2006 (has links)
published_or_final_version / Medicine / Master / Master of Research in Medicine
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Mechanisms Underlying Exercise-induced Atrial FibrillationIzaddoustdar, Farzad 18 March 2013 (has links)
Atrial fibrillation (AF) is the most common supraventricular tachyarrhythmia that can present without cardiovascular disease (lone AF). Frequent high-intensity endurance exercise is a risk factor for lone AF, and the pathophysiology of AF induced by intense endurance exercise is unknown. We found that after 6 weeks of intense swimming and running, mice were far more susceptible to AF, but not ventricular arrhythmias. Exercise induced atrial fibrosis, inflammation and slowed conduction without detectible changes in ventricles. Since AF is associated with stretch and since a tumor necrosis factor-α (TNFα) is a mechanosensitive inflammatory factor, mice were treated with the TNFα inhibitor etanercept. Etanercept treatment blocked inflammation, fibrosis, and AF vulnerability in the exercised mice. Consistent with these findings, we found that exercise caused large elevations in atrial pressures. Our findings support the conclusion that mechanical loading of atria during exercise induces TNFα release, leading to structural remodeling and enhanced AF vulnerability.
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Mechanisms Underlying Exercise-induced Atrial FibrillationIzaddoustdar, Farzad 18 March 2013 (has links)
Atrial fibrillation (AF) is the most common supraventricular tachyarrhythmia that can present without cardiovascular disease (lone AF). Frequent high-intensity endurance exercise is a risk factor for lone AF, and the pathophysiology of AF induced by intense endurance exercise is unknown. We found that after 6 weeks of intense swimming and running, mice were far more susceptible to AF, but not ventricular arrhythmias. Exercise induced atrial fibrosis, inflammation and slowed conduction without detectible changes in ventricles. Since AF is associated with stretch and since a tumor necrosis factor-α (TNFα) is a mechanosensitive inflammatory factor, mice were treated with the TNFα inhibitor etanercept. Etanercept treatment blocked inflammation, fibrosis, and AF vulnerability in the exercised mice. Consistent with these findings, we found that exercise caused large elevations in atrial pressures. Our findings support the conclusion that mechanical loading of atria during exercise induces TNFα release, leading to structural remodeling and enhanced AF vulnerability.
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Characterizing the Role of Regulator of G-protein Signalling 4 as a Mediator of Sinoatrial Node and Atrial Cardiomyocyte FunctionCifelli, Carlo 14 February 2011 (has links)
Heart rate is modulated by the opposing activities of sympathetic and parasympathetic inputs to pacemaker cardiomyocytes in the sinoatrial (SA) node. Parasympathetic activity on nodal myocytes is mediated by acetylcholine-dependent stimulation of M2 muscarinic receptors and activation of Gαi/o signalling. Although, regulators of G-protein signalling (RGS) proteins are potent inhibitors of Gαi/o signalling in many tissues, the RGS protein(s) that regulate parasympathetic tone in the SA node are unknown. Our results demonstrate that RGS4 mRNA levels are higher in the SA node compared to right atrium. Conscious freely moving RGS4-null mice showed a greater extent of bradycardia in response to parasympathetic agonists compared to wild-type animals. Moreover, anaesthetized rgs4-null mice had lower baseline heart rates and greater heart rate increases following atropine administration. Retrograde-perfused hearts from rgs4-null mice also showed enhanced negative chronotropic responses to carbachol, while isolated SA node myocytes showed greater sensitivity to carbachol-mediated reduction in the action potential firing rate. Finally, rgs4-null SA node cells showed decreased levels of G-protein-coupled inward rectifying potassium (GIRK) channel desensitization, and altered modulation of acetylcholine-sensitive potassium current (IKACh) kinetics following carbachol stimulation. Taken together, our studies establish that RGS4 plays an important role in regulating sinus rhythm by inhibiting parasympathetic signalling and IKACh activity. Following these results, we predicted that loss of RGS4 expression and function will result in increased levels of parasympathetic effector activity leading to increased susceptibility to atrial fibrillation.
Susceptibility to atrial fibrillation (AF) depends strongly on parasympathetic activity. Since RGS4 inhibits parasympathetic / M2-dependent Gαi/o signalling in the SA node, we explored whether changes in RGS4 levels altered the susceptibility of atrial fibrillation. We found that, RGS4 levels were decreased in atria of tachypaced dogs prior to their development of chronic AF. Moreover, in vivo ECG recordings of anaesthetized mice showed greater susceptibility to AF while optical mapping of isolated atrial preparations using a voltage-sensitive dye revealed greatly increased susceptibility to rotor formation when RGS4 was ablated. Consistent with altered parasympathetic signalling in the myocardium of rgs4-null mice, IKACh evoked by carbachol application were greater in isolated atrial myocytes from rgs4-null mice. These IKACh changes were, as expected, associated with marked action potential duration shortening in response to parasympathetic activation, but not to slower conduction velocities. Together, our findings establish that RGS4 protects atrial tissues from excess parasympathetic signalling that predispose to atrial fibrillation.
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Transient auricular fibrillation an electrocardiographic study /Krumbhaar, E. B. January 1916 (has links)
Thesis (Ph. D.)--University of Pennsylvania, 1916. / "From the John Herr Musser Department of Research Medicine, University of Pennsylvania, Philadelphia."
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Transient auricular fibrillation an electrocardiographic study /Krumbhaar, E. B. January 1916 (has links)
Thesis (Ph. D.)--University of Pennsylvania, 1916. / "From the John Herr Musser Department of Research Medicine, University of Pennsylvania, Philadelphia."
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Current challenges in atrial fibrillation ablationDavies, Edward John January 2016 (has links)
The ablative management of atrial fibrillation, despite a number of landmark discoveries, remains one of the most challenging fields in interventional electrophysiology. It is generally accepted that successful isolation of the pulmonary veins is a highly effective way of managing paroxysmal forms of AF. However, despite almost a decade of research into alternative lesion patterns, the solution to persistent AF remains beyond our grasp. A variety of strategies have been proposed to target key areas in the atria; these use various complex mapping systems, usually based on tailored lesion sets to try and improve outcomes. None have proven to be the golden bullet. We have investigated the role of a lesion set intended to alter the electrical properties of the posterior wall of the left atrium. Commonly known as the ‘box-set’, this pattern has shown promise in early studies and may provide some key insights into future developments. Surgical ablation using the Epicor system aims to deliver the box-set lesion, outcomes have previously been documented but each series has its limitations. In our series, very late outcomes are reported to show an 80% freedom from AF rate in patients with paroxysmal AF pre-operatively and only 20% in those with long-standing persistent forms. The reason behind this dramatic variation is explored through the invasive electrophysiologal assessment of both successful and unsuccessful cases. We report a clear correlation between the successful isolation of the posterior wall and long-term freedom from AF. Though surgical ablation may be an acceptable approach for some, the ultimate goal is a lesion set that can be delivered purely endocardially. We explore the outcome of one such empirical pattern based on the box-set concept delivered through linear catheter technology and report outcomes broadly similar to alternative patterns.
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Tissue engineering of the human atrium : approaching mechanisms of genesis and control of atrial fibrillationLaw, Phillip Robert January 2011 (has links)
Cardiovascular disease is prevalent across the western world and is a major cause of morbidity and mortality, accounting for approximately a third of all fatalities. Investigating the heart by simulating its electrophysiology via the aid of mathematical models has advanced significantly over the past 60 years and is now a well established field. While much of the research focus is placed on the ventricles, the study of the atria is in comparison neglected. Therefore this Thesis is focused on the genesis and maintenance of atrial fibrillation (AF). A series of case studies are performed whereby established biophysically detailed mathematical models are implemented and modified to incorporate electrophysical alterations of atrial cells resulting from a variety of external conditions. The opening section of this Thesis is dedicated to developing a background to the field, including a discussion into the clinical aspect of the diagnosis and management of AF. The suitability of two atrial cell models is discussed and the development of single cell, 1D, 2D, and 3D multi-scale simulation protocols are described in detail. In addition measurements taken to quantify the arrhythmogenic properties of the cells susceptibility to AF are outlined. The second section is focused on the incorporation of conditions thought to enhance atrial tissues ability to initiate and maintain the genesis of AF. Included is a case study into the missence S140G gene mutation, and elevated physiological levels of the hormone Homocystein. The third section investigates the effectiveness of well established and widely used pharmacological treatments such as Beta-Blockers. In addition possible avenues of investigations for the development of atrial specific drugs are explored. These include blocking of the ultra rapid potassium channel and a more novel target for therapy via the targeting of 5HT4 receptors; which is transcribed solely in the atria and alters the electrophysical properties of the L-type Calcium current. The final part of this Thesis is dedicated to the development of a 2D atrial sheet model which includes electrical and spatial heterogeneities via the inclusion of multiple cell types and basic fiber orientation respectively. This allows for an investigation into the role that heterogeneities play in role genesis and maintenance of AF. The main finding of this Thesis is that alterations to the electrophysiology of atrial cells, due to external factors, can be successfully simulated via the implementation of mathematically detailed atrial cell models. It is concluded that simulations of the KENQ1 mutation and elevated levels of Homocystein successfully reproduce conditions which increase the onset of AF. Established treatments such as Beta-Blockers are found to have limited effectiveness. Possible theoretical treatments, such as the blocking of IKur, are found to provide a small amount of therapeutic benefit. In contrast, investigations into the effects of Serotonin were inconclusive. The study into the 2D atria indicated the importance that heterogeneities play in atria. The conclusions show that models provide a powerful tool when investigating how changes to electrophysiology of cells are manifested at a multi-scale level. The models also have their limitations and require further advancement to improve their accuracy.
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