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Author: Catherine Elise Lipovsky
Publisher:
ISBN:
Category : Electronic dissertations
Languages : en
Pages : 344
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Book Description
Abnormalities in electrical impulse generation and/or propagation that affect the heart's normal rhythm are extremely common. Clinically, cardiac arrhythmias are prevalent worldwide, yet the molecular mechanisms underlying their pathology remain largely unknown. Current treatments for arrhythmias primarily target symptoms rather than the underlying cause and these treatments have limited efficacy. The most common risk factor for developing an arrhythmia is a previous cardiac injury; however, the mechanisms underlying this are not well described. My thesis work has demonstrated that the Notch signaling pathway, which is crucial for cardiac patterning and development and is normally quiescent in adult cardiomyocytes (CMs), is reactivated in the adult heart following cardiac injuries that predispose to arrhythmias, such as myocardial infarction. Notch activation within the adult heart leads to changes in cardiac electrophysiology and gene expression in the right atrial (RA) chamber. We have shown that these chamber-specific changes persist even one year after a short pulse of Notch signaling activation, suggesting that even a small level of Notch signaling activation following cardiac injury is sufficient to cause long-term functional changes in cardiac electrophysiology. These mice develop conduction abnormalities akin to sick sinus syndrome (SSS) in humans, a disorder that predisposes an individual to atrial fibrillation (AF). Understanding molecular determinants in the pathogenesis of AF is crucial because it is the most common cardiac arrhythmia that affects up to 2% of the general population. AF represents a significant source of morbidity and mortality as it increases the risk of stroke and heart failure (HF). Current research has proposed that AF can be caused by multiple factors including genetics (such as mutations in coding or non-coding parts of the genome) and/or environmental factors (such as hypertension and diabetes). Past research has focused on genome-wide association studies to elucidate factors involved in AF; however, this limits our understanding of AF pathogenesis to genetic variation. In AF, triggers are believed to originate in the pulmonary veins (PVs) near the posterior left atrium (LA), and the LA itself is remodeled to create a substrate conducive for arrhythmia maintenance. My work found that Notch signaling is also re-activated in the LA following cardiac injury, suggesting Notch signaling may potentially be acting as an environmental factor that could predispose to AF. Based on my findings that Notch can cause changes to RA electrophysiology, I hypothesized Notch could also be causing electrophysiological changes in the LA. Traditionally, cardiac research has lumped ventricular chambers and atrial chambers together as similar units, but it is becoming increasingly clear that each cardiac chamber represents a distinct transcriptional unit that has a differential response to injury signals. Indeed, we characterized how Notch signaling electrically remodels the LA to predispose to AF and found that Notch signaling differentially affects ion channel gene expression in the RA versus the LA, even within the heart of the same mouse. Furthermore, cardiac electrophysiology of the RA shows an opposite phenotype than in the LA. Whereas Notch signaling affects Na+ channel gene expression and function by altering the Phase 0 of the action potential in the RA and therefore decreases CM excitability, K+ channel genes appear to be the main ion channels affected in the LA. Alterations to K+ channel genes leads to action potential duration (APD) prolongation, similar to the action potential phenotype seen in previously published work from the Moskowitz lab on a Tbx5 loss-of-function (LOF) mouse model of AF. Furthermore, RNA-sequencing performed by our lab on CM nuclei isolated from the LA of human AF patients revealed that Notch signaling is significantly upregulated compared to the LA of non-AF patients. Collectively, our findings demonstrate for the first time that activation of Notch signaling is associated with AF in both mouse models and human tissue, suggesting that Notch signaling is an environmental risk factor that can transiently turn on following cardiac injury. As a result, Notch activation leads to differential electrophysiological remodeling in the RA versus the LA and predisposes the heart to arrhythmias. Differential atrial remodeling could help explain why cardiac injury is the largest risk factor for developing an arrhythmia and could further explain why current treatments for arrhythmias are often ineffective and paradoxically pro-arrhythmic. Therefore, since each cardiac chamber has a differential response to injury, they should not be treated equally. In summary, my thesis work can be a blueprint for targeting arrhythmia treatments on individual chambers rather than treating the heart as a single unit. Furthermore, Notch signaling may be a potential target for inhibition following cardiac injury to prevent cardiac electrical remodeling and the development of potentially life-threatening arrhythmias.
Author: Catherine Elise Lipovsky
Publisher:
ISBN:
Category : Electronic dissertations
Languages : en
Pages : 344
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Book Description
Abnormalities in electrical impulse generation and/or propagation that affect the heart's normal rhythm are extremely common. Clinically, cardiac arrhythmias are prevalent worldwide, yet the molecular mechanisms underlying their pathology remain largely unknown. Current treatments for arrhythmias primarily target symptoms rather than the underlying cause and these treatments have limited efficacy. The most common risk factor for developing an arrhythmia is a previous cardiac injury; however, the mechanisms underlying this are not well described. My thesis work has demonstrated that the Notch signaling pathway, which is crucial for cardiac patterning and development and is normally quiescent in adult cardiomyocytes (CMs), is reactivated in the adult heart following cardiac injuries that predispose to arrhythmias, such as myocardial infarction. Notch activation within the adult heart leads to changes in cardiac electrophysiology and gene expression in the right atrial (RA) chamber. We have shown that these chamber-specific changes persist even one year after a short pulse of Notch signaling activation, suggesting that even a small level of Notch signaling activation following cardiac injury is sufficient to cause long-term functional changes in cardiac electrophysiology. These mice develop conduction abnormalities akin to sick sinus syndrome (SSS) in humans, a disorder that predisposes an individual to atrial fibrillation (AF). Understanding molecular determinants in the pathogenesis of AF is crucial because it is the most common cardiac arrhythmia that affects up to 2% of the general population. AF represents a significant source of morbidity and mortality as it increases the risk of stroke and heart failure (HF). Current research has proposed that AF can be caused by multiple factors including genetics (such as mutations in coding or non-coding parts of the genome) and/or environmental factors (such as hypertension and diabetes). Past research has focused on genome-wide association studies to elucidate factors involved in AF; however, this limits our understanding of AF pathogenesis to genetic variation. In AF, triggers are believed to originate in the pulmonary veins (PVs) near the posterior left atrium (LA), and the LA itself is remodeled to create a substrate conducive for arrhythmia maintenance. My work found that Notch signaling is also re-activated in the LA following cardiac injury, suggesting Notch signaling may potentially be acting as an environmental factor that could predispose to AF. Based on my findings that Notch can cause changes to RA electrophysiology, I hypothesized Notch could also be causing electrophysiological changes in the LA. Traditionally, cardiac research has lumped ventricular chambers and atrial chambers together as similar units, but it is becoming increasingly clear that each cardiac chamber represents a distinct transcriptional unit that has a differential response to injury signals. Indeed, we characterized how Notch signaling electrically remodels the LA to predispose to AF and found that Notch signaling differentially affects ion channel gene expression in the RA versus the LA, even within the heart of the same mouse. Furthermore, cardiac electrophysiology of the RA shows an opposite phenotype than in the LA. Whereas Notch signaling affects Na+ channel gene expression and function by altering the Phase 0 of the action potential in the RA and therefore decreases CM excitability, K+ channel genes appear to be the main ion channels affected in the LA. Alterations to K+ channel genes leads to action potential duration (APD) prolongation, similar to the action potential phenotype seen in previously published work from the Moskowitz lab on a Tbx5 loss-of-function (LOF) mouse model of AF. Furthermore, RNA-sequencing performed by our lab on CM nuclei isolated from the LA of human AF patients revealed that Notch signaling is significantly upregulated compared to the LA of non-AF patients. Collectively, our findings demonstrate for the first time that activation of Notch signaling is associated with AF in both mouse models and human tissue, suggesting that Notch signaling is an environmental risk factor that can transiently turn on following cardiac injury. As a result, Notch activation leads to differential electrophysiological remodeling in the RA versus the LA and predisposes the heart to arrhythmias. Differential atrial remodeling could help explain why cardiac injury is the largest risk factor for developing an arrhythmia and could further explain why current treatments for arrhythmias are often ineffective and paradoxically pro-arrhythmic. Therefore, since each cardiac chamber has a differential response to injury, they should not be treated equally. In summary, my thesis work can be a blueprint for targeting arrhythmia treatments on individual chambers rather than treating the heart as a single unit. Furthermore, Notch signaling may be a potential target for inhibition following cardiac injury to prevent cardiac electrical remodeling and the development of potentially life-threatening arrhythmias.
Author: Ambrose S. Kibos
Publisher: Springer Science & Business Media
ISBN: 1447153162
Category : Medical
Languages : en
Pages : 678
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Book Description
This book covers all the major aspects associated with pathophysiological development of cardiac arrhythmias (covering enhanced or suppressed automaticity, triggered activity, or re-entry), from basic concepts through disease association, limitations of current pharmacotherapy and implant therapies and on-going trials and analysis of new biomarkers based on current knowledge of cellular interaction and signalling. The book describes novel and state-of-the-art methods for differentiating between the major types of arrhythmia, structural abnormalities and current practice guidelines and determination of risk stratification associated with sudden cardiac death. A particular focus is on arrhythmias associated with atrial fibrillation and includes details of associations with cardiac disease, current detection, analysis and imaging and future perspectives.
Author: Constantine Mavroudis
Publisher: John Wiley & Sons
ISBN: 1405196521
Category : Medical
Languages : en
Pages : 978
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Book Description
Pediatric cardiac surgery is a dynamic, fast-moving field. Busy practitioners, like you, need clear and comprehensive guidance you can rely on to ensure optimal patient care. For over 25 years Pediatric Cardiac Surgery has been the gold-standard reference for pediatric and adult congenital heart surgeons, pediatric and congenital cardiologists, intensivists, anesthesiologists, residents and nurses. Now, in this thoroughly revised fourth edition, you again get trusted, complete coverage of the field with timely new features and expert reviews of critical topics including heart transplantation, emerging modalities for diagnosing congenital heart and tracheal defects, the surgical technique of Fontan conversion with arrhythmia surgery, the medical challenges of managing adult CHD patients, and more. This new edition includes: Contributions from over 65 world-renowned experts More beautiful illustrations, by renowned medical illustrator Rachid Idriss, which have brought acclaim to previous editions Reviews of the embryology, physical findings, diagnostic criteria, and therapeutic choices for each disease entity and describes the latest in surgical techniques in each chapter All-new chapters that guide readers through new treatment options and other key developments since the publication of the third edition highlighting recent advances in congenital heart surgery. All-new new chapters that review advances in right ventricular to pulmonary artery conduits, arrhythmia surgery, double outlet ventricles, and adult congenital heart disease, among other key topics.
Author: Markus H. Kuehn
Publisher: Springer Nature
ISBN: 3031423496
Category : Medical
Languages : en
Pages : 331
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Book Description
Since their development a decade ago, human induced pluripotent stem cells (iPSC) have revolutionized the study of human disease, given rise to regenerative medicine technologies, and provided exceptional opportunities for pharmacologic research. These cells provide an essentially unlimited supply of cell types that are difficult to obtain from patients, such as neurons or cardiomyocytes, or are difficult to maintain in primary cell culture. iPSC can be obtained from patients afflicted with a particular disease but, in combination with recently developed gene editing techniques, can also be modified to generate disease models. Moreover, the new techniques of 3 Dimensional printing and materials science facilitate the generation of organoids that can mirror organs under disease conditions. These properties make iPSC powerful tools to study how diseases develop and how they may be treated. In addition, iPSC can also be used to treat conditions in which the target cell population has been lost and such regenerative approaches hold great promise for currently untreatable diseases, including cardiac failure or photoreceptor degenerations.
Author: Charles Antzelevitch
Publisher: Springer
ISBN: 3319315781
Category : Medical
Languages : en
Pages : 342
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Book Description
This book delineates the state of the art of the diagnosis and treatment of J wave syndromes, as well as where future research needs to be directed. It covers basic science, translational and clinical aspects of these syndromes. The authors are leading experts in their respective fields, who have contributed prominently to the literature concerning these topics. J wave syndromes are one of the hottest topics in cardiology today. Cardiac arrhythmias associated with Brugada syndrome (BrS) or an early repolarization (ER) pattern in the inferior or infero-lateral ECG leads are thought to be mechanistically linked to accentuation of transient outward current (Ito)-mediated J waves. Although BrS and ER syndrome (ERS) differ with respect to magnitude and lead location of abnormal J waves, they are thought to represent a continuous spectrum of phenotypic expression termed J wave syndromes. ERS is divided into three subtypes with the most severe, Type 3, displaying an ER pattern globally in the inferior, lateral and right precordial leads. BrS has been linked to mutations in 19 different genes, whereas ERS has been associated with mutations in 7 different genes. There is a great deal of confusion as to how to properly diagnose and treat the J wave syndromes as well as confusion about the underlying mechanisms. The demonstration of successful epicardial ablation of BrS has provided new therapeutic options for the management of this syndrome for which treatment alternatives are currently very limited, particularly in the case of electrical storms caused by otherwise uncontrollable recurrent VT/VF. An early repolarization pattern is observed in 2-5% of the US population. While it is clear that the vast majority of individuals exhibiting an ER pattern are not at risk for sudden cardiac death, the challenge moving forward is to identify those individuals who truly are at risk and to design safe and effective treatments.
Author: Dr. Scott Dougherty
Publisher: Elsevier Health Sciences
ISBN: 0323754600
Category : Medical
Languages : en
Pages : 364
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Book Description
Acute Rheumatic Fever and Rheumatic Heart Disease is a concise, yet comprehensive, clinical resource highlighting must-know information on rheumatic heart disease and acute rheumatic fever from a global perspective. Covering the major issues dominating the field, this practical resource presents sufficient detail for a deep and thorough understanding of the latest treatment options, potential complications, and disease management strategies to improve patient outcomes. Divided into four distinct sections for ease of navigation: Acute Rheumatic Fever, Rheumatic Heart Disease, Population-Based Strategies for Disease Control, and Acute and Emergency Presentations. International editors and chapter authors ensure a truly global perspective. Covers all clinical aspects, including epidemiology, pathophysiology, clinical features, diagnosis, management, and treatment. Includes key topics on population-based measures for disease control for effective primary, secondary, and tertiary prevention. Consolidates today’s available information and guidance into a single, convenient resource.
Author: Charles Antzelevitch
Publisher: John Wiley & Sons
ISBN: 1405146818
Category : Medical
Languages : en
Pages : 248
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Book Description
Until recently, the cellular basis for sudden death, the BrugadaSyndrome, has largely remained an unknown to modernarrhythmologists and cardiologists, particularly in the absence ofany structural heart disease. Detailed observations of age-groups,especially the young, families and populations where sudden deathfrequently occurs, and improved understanding of its contributoryfactors and mechanisms are, however, showing the way forward. This addition to the Clinical Approaches to Tachyarrhythmias(CATA) Series, written by the investigators who discovered andprobed the Brugada Syndrome, discusses the history, etiology,pathology and clinical manifestations of sudden death. Fromdiagnosis, prognosis, to therapeutic approaches using the latest incathater ablation techniques, electrophysiological surgery, andgenetic appraisal, the work is a testimony to the author'sinvestigation. Using clinical cases in Thailand and Laos, theyfurther unravel the syndrome's molecular mechanisms, studyingrelated syndromes, such as the long-QT syndrome, infant death, andarryhthmogenic right ventricular cardiomyopathy. By being informed of the electrophysiological abnormalities thatcontribute to familial and genetic diseases, physicians,cardiologists and all those who care for patients with cardiacarrhythmias will be better able to identify and treat patients inwhom the Brugada Syndrome may strike next.
Author: Guowei Li
Publisher: Frontiers Media SA
ISBN: 2832507735
Category : Medical
Languages : en
Pages : 102
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Book Description
Author: Marco Tubaro
Publisher: Oxford University Press
ISBN: 0192589199
Category : Medical
Languages : en
Pages : 800
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Book Description
The ESC Textbook of Intensive and Acute Cardiovascular Care is the official textbook of the Acute Cardiovascular Care Association (ACVC) of the ESC. Cardiovascular diseases (CVDs) are a major cause of premature death worldwide and a cause of loss of disability-adjusted life years. For most types of CVD early diagnosis and intervention are independent drivers of patient outcome. Clinicians must be properly trained and centres appropriately equipped in order to deal with these critically ill cardiac patients. This new updated edition of the textbook continues to comprehensively approach all the different issues relating to intensive and acute cardiovascular care and addresses all those involved in intensive and acute cardiac care, not only cardiologists but also critical care specialists, emergency physicians and healthcare professionals. The chapters cover the various acute cardiovascular diseases that need high quality intensive treatment as well as organisational issues, cooperation among professionals, and interaction with other specialities in medicine. SECTION 1 focusses on the definition, structure, organisation and function of ICCU's, ethical issues and quality of care. SECTION 2 addresses the pre-hospital and immediate in-hospital (ED) emergency cardiac care. SECTIONS 3-5 discuss patient monitoring, diagnosis and specific procedures. Acute coronary syndromes (ACS), acute decompensated heart failure (ADHF), and serious arrhythmias form SECTIONS 6-8. The main other cardiovascular acute conditions are grouped in SECTION 9. Finally SECTION 10 is dedicated to the many concomitant acute non-cardiovascular conditions that contribute to the patients' case mix in ICCU. This edition includes new chapters such as low cardiac output states and cardiogenic shock, and pacemaker and ICDs: troubleshooting and chapters have been extensively revised. Purchasers of the print edition will also receive an access code to access the online version of the textbook which includes additional figures, tables, and videos to better to better illustrate diagnostic and therapeutic techniques and procedures in IACC. The third edition of the ESC Textbook of Intensive and Acute Cardiovascular Care will establish a common basis of knowledge and a uniform and improved quality of care across the field.
Author: Ihor Gussak
Publisher: Springer Science & Business Media
ISBN: 1592593623
Category : Medical
Languages : en
Pages : 549
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Book Description
A comprehensive review of all the latest developments in cardiac electrophysiology, focusing on both the clinical and experimental aspects of ventricular repolarization, including newly discovered clinical repolarization syndromes, electrocardiographic phenomena, and their correlation with the most recent advances in basic science. The authors illuminate the basic electrophysiologic, molecular, and pharmacologic mechanisms underlying ventricular repolarization, relate them to specific disease conditions, and examine the future of antiarrhythmic drug development based on both molecular and electrophysiological properties. They also fully review the clinical presentation and management of specific cardiac repolarization conditions.
