Atrial Fibrillation Genetics Update: Toward Clinical Implementation
Atrial fibrillation (AF) is the most common heart rhythm disorder worldwide and may have serious cardiovascular health consequences. AF is associated with increased risk of stroke, dementia, heart failure, and death. There are several known robust, clinical risk predictors for AF, such as male sex,...
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| Published in | Frontiers in cardiovascular medicine Vol. 6; p. 127 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Frontiers Media S.A
06.09.2019
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2297-055X 2297-055X |
| DOI | 10.3389/fcvm.2019.00127 |
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| Abstract | Atrial fibrillation (AF) is the most common heart rhythm disorder worldwide and may have serious cardiovascular health consequences. AF is associated with increased risk of stroke, dementia, heart failure, and death. There are several known robust, clinical risk predictors for AF, such as male sex, increasing age, and hypertension; however, during the last couple of decades, a substantive genetic component has also been established. Over the last 10 years, the discovery of novel AF-related genetic variants has accelerated, increasing our understanding of mechanisms behind AF. Current studies are focusing on mapping the polygenic structure of AF, improving risk prediction, therapeutic development, and patient-specific management. Nevertheless, it is still difficult for clinicians to interpret the role of genetics in AF prediction and management. Here, we provide an overview of relevant topics within the genetics of AF and attempt to provide some guidance on how to interpret genetic advances and their implementation into clinical decision-making.Atrial fibrillation (AF) is the most common heart rhythm disorder worldwide and may have serious cardiovascular health consequences. AF is associated with increased risk of stroke, dementia, heart failure, and death. There are several known robust, clinical risk predictors for AF, such as male sex, increasing age, and hypertension; however, during the last couple of decades, a substantive genetic component has also been established. Over the last 10 years, the discovery of novel AF-related genetic variants has accelerated, increasing our understanding of mechanisms behind AF. Current studies are focusing on mapping the polygenic structure of AF, improving risk prediction, therapeutic development, and patient-specific management. Nevertheless, it is still difficult for clinicians to interpret the role of genetics in AF prediction and management. Here, we provide an overview of relevant topics within the genetics of AF and attempt to provide some guidance on how to interpret genetic advances and their implementation into clinical decision-making. |
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| AbstractList | Atrial fibrillation (AF) is the most common heart rhythm disorder worldwide and may have serious cardiovascular health consequences. AF is associated with increased risk of stroke, dementia, heart failure, and death. There are several known robust, clinical risk predictors for AF, such as male sex, increasing age, and hypertension; however, during the last couple of decades, a substantive genetic component has also been established. Over the last 10 years, the discovery of novel AF-related genetic variants has accelerated, increasing our understanding of mechanisms behind AF. Current studies are focusing on mapping the polygenic structure of AF, improving risk prediction, therapeutic development, and patient-specific management. Nevertheless, it is still difficult for clinicians to interpret the role of genetics in AF prediction and management. Here, we provide an overview of relevant topics within the genetics of AF and attempt to provide some guidance on how to interpret genetic advances and their implementation into clinical decision-making.Atrial fibrillation (AF) is the most common heart rhythm disorder worldwide and may have serious cardiovascular health consequences. AF is associated with increased risk of stroke, dementia, heart failure, and death. There are several known robust, clinical risk predictors for AF, such as male sex, increasing age, and hypertension; however, during the last couple of decades, a substantive genetic component has also been established. Over the last 10 years, the discovery of novel AF-related genetic variants has accelerated, increasing our understanding of mechanisms behind AF. Current studies are focusing on mapping the polygenic structure of AF, improving risk prediction, therapeutic development, and patient-specific management. Nevertheless, it is still difficult for clinicians to interpret the role of genetics in AF prediction and management. Here, we provide an overview of relevant topics within the genetics of AF and attempt to provide some guidance on how to interpret genetic advances and their implementation into clinical decision-making. Atrial fibrillation (AF) is the most common heart rhythm disorder worldwide and may have serious cardiovascular health consequences. AF is associated with increased risk of stroke, dementia, heart failure, and death. There are several known robust, clinical risk predictors for AF, such as male sex, increasing age, and hypertension; however, during the last couple of decades, a substantive genetic component has also been established. Over the last 10 years, the discovery of novel AF-related genetic variants has accelerated, increasing our understanding of mechanisms behind AF. Current studies are focusing on mapping the polygenic structure of AF, improving risk prediction, therapeutic development, and patient-specific management. Nevertheless, it is still difficult for clinicians to interpret the role of genetics in AF prediction and management. Here, we provide an overview of relevant topics within the genetics of AF and attempt to provide some guidance on how to interpret genetic advances and their implementation into clinical decision-making. |
| Author | Kalstø, Silje Madeleine Rienstra, Michiel Siland, Joylene Elisabeth Christophersen, Ingrid E. |
| AuthorAffiliation | 3 The Department of Medical Genetics, Oslo University Hospital , Oslo , Norway 1 Department of Medical Research, Bærum Hospital, Vestre Viken Hospital Trust , Rud , Norway 2 Department of Cardiology, University of Groningen, University Medical Center Groningen , Groningen , Netherlands |
| AuthorAffiliation_xml | – name: 1 Department of Medical Research, Bærum Hospital, Vestre Viken Hospital Trust , Rud , Norway – name: 2 Department of Cardiology, University of Groningen, University Medical Center Groningen , Groningen , Netherlands – name: 3 The Department of Medical Genetics, Oslo University Hospital , Oslo , Norway |
| Author_xml | – sequence: 1 givenname: Silje Madeleine surname: Kalstø fullname: Kalstø, Silje Madeleine – sequence: 2 givenname: Joylene Elisabeth surname: Siland fullname: Siland, Joylene Elisabeth – sequence: 3 givenname: Michiel surname: Rienstra fullname: Rienstra, Michiel – sequence: 4 givenname: Ingrid E. surname: Christophersen fullname: Christophersen, Ingrid E. |
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| Copyright | Copyright © 2019 Kalstø, Siland, Rienstra and Christophersen. 2019 Kalstø, Siland, Rienstra and Christophersen |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 ObjectType-Review-3 content type line 23 Reviewed by: Ville-Petteri Makinen, South Australian Health and Medical Research Institute (SAHMRI), Australia; Steven Clive Greenway, University of Calgary, Canada These authors have contributed equally to this work This article was submitted to Cardiovascular Genetics and Systems Medicine, a section of the journal Frontiers in Cardiovascular Medicine Edited by: Valeria Novelli, Agostino Gemelli University Polyclinic, Italy |
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| Title | Atrial Fibrillation Genetics Update: Toward Clinical Implementation |
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