Your search keyword '"Agbaedeng, Thomas A."' showing total 5 results

1. Gut microbiota, dysbiosis and atrial fibrillation. Arrhythmogenic mechanisms and potential clinical implications

Author

Gawałko, Monika, Gawałko, Monika, Agbaedeng, Thomas A, Saljic, Arnela, Müller, Dominik N, Wilck, Nicola, Schnabel, Renate, Penders, John, Rienstra, Michiel, van Gelder, Isabelle, Jespersen, Thomas, Schotten, Ulrich, Crijns, Harry J G M, Kalman, Jonathan M, Sanders, Prashanthan, Nattel, Stanley, Dobrev, Dobromir, Linz, Dominik, Gawałko, Monika, Gawałko, Monika, Agbaedeng, Thomas A, Saljic, Arnela, Müller, Dominik N, Wilck, Nicola, Schnabel, Renate, Penders, John, Rienstra, Michiel, van Gelder, Isabelle, Jespersen, Thomas, Schotten, Ulrich, Crijns, Harry J G M, Kalman, Jonathan M, Sanders, Prashanthan, Nattel, Stanley, Dobrev, Dobromir, and Linz, Dominik

Abstract

Recent preclinical and observational cohort studies have implicated imbalances in gut microbiota composition as a contributor to atrial fibrillation (AF). The gut microbiota is a complex and dynamic ecosystem containing trillions of microorganisms, which produces bioactive metabolites influencing host health and disease development. In addition to host-specific determinants, lifestyle-related factors such as diet and drugs are important determinants of the gut microbiota composition. In this review, we discuss the evidence suggesting a potential bidirectional association between AF and gut microbiota, identifying gut microbiota-derived metabolites as possible regulators of the AF substrate. We summarize the effect of gut microbiota on the development and progression of AF risk-factors, including heart failure, hypertension, obesity and coronary artery disease. We also discuss the potential antiarrhythmic effects of pharmacological and diet-induced modifications of gut microbiota composition, which may modulate and prevent the progression to AF. Finally, we highlight important gaps in knowledge and areas requiring future investigation. Although data supporting a direct relationship between gut microbiota and AF are very limited at the present time, emerging preclinical and clinical research dealing with mechanistic interactions between gut microbiota and AF is important as it may lead to new insights into AF pathophysiology and the discovery of novel therapeutic targets for AF.

Published

2022

2. Gut microbiota, dysbiosis and atrial fibrillation. Arrhythmogenic mechanisms and potential clinical implications

Author

Gawalko, Monika, Agbaedeng, Thomas A., Saljic, Arnela, Mueller, Dominik N., Wilck, Nicola, Schnabel, Renate, Penders, John, Rienstra, Michiel, van Gelder, Isabelle, Jespersen, Thomas, Schotten, Ulrich, Crijns, Harry J. G. M., Kalman, Jonathan M., Sanders, Prashanthan, Nattel, Stanley, Dobrev, Dobromir, Linz, Dominik, Gawalko, Monika, Agbaedeng, Thomas A., Saljic, Arnela, Mueller, Dominik N., Wilck, Nicola, Schnabel, Renate, Penders, John, Rienstra, Michiel, van Gelder, Isabelle, Jespersen, Thomas, Schotten, Ulrich, Crijns, Harry J. G. M., Kalman, Jonathan M., Sanders, Prashanthan, Nattel, Stanley, Dobrev, Dobromir, and Linz, Dominik

Abstract

Recent preclinical and observational cohort studies have implicated imbalances in gut microbiota composition as a contributor to atrial fibrillation (AF). The gut microbiota is a complex and dynamic ecosystem containing trillions of microorganisms, which produces bioactive metabolites influencing host health and disease development. In addition to host-specific determinants, lifestyle-related factors such as diet and drugs are important determinants of the gut microbiota composition. In this review, we discuss the evidence suggesting a potential bidirectional association between AF and gut microbiota, identifying gut microbiota-derived metabolites as possible regulators of the AF substrate. We summarize the effect of gut microbiota on the development and progression of AF risk factors, including heart failure, hypertension, obesity, and coronary artery disease. We also discuss the potential anti-arrhythmic effects of pharmacological and diet-induced modifications of gut microbiota composition, which may modulate and prevent the progression to AF. Finally, we highlight important gaps in knowledge and areas requiring future investigation. Although data supporting a direct relationship between gut microbiota and AF are very limited at the present time, emerging preclinical and clinical research dealing with mechanistic interactions between gut microbiota and AF is important as it may lead to new insights into AF pathophysiology and the discovery of novel therapeutic targets for AF.

Published

2022

3. Gut microbiota, dysbiosis and atrial fibrillation. Arrhythmogenic mechanisms and potential clinical implications

Author

Gawałko, Monika, Agbaedeng, Thomas A, Saljic, Arnela, Müller, Dominik N, Wilck, Nicola, Schnabel, Renate, Penders, John, Rienstra, Michiel, van Gelder, Isabelle, Jespersen, Thomas, Schotten, Ulrich, Crijns, Harry J G M, Kalman, Jonathan M, Sanders, Prashanthan, Nattel, Stanley, Dobrev, Dobromir, Linz, Dominik, Gawałko, Monika, Agbaedeng, Thomas A, Saljic, Arnela, Müller, Dominik N, Wilck, Nicola, Schnabel, Renate, Penders, John, Rienstra, Michiel, van Gelder, Isabelle, Jespersen, Thomas, Schotten, Ulrich, Crijns, Harry J G M, Kalman, Jonathan M, Sanders, Prashanthan, Nattel, Stanley, Dobrev, Dobromir, and Linz, Dominik

Abstract

Recent preclinical and observational cohort studies have implicated imbalances in gut microbiota composition as a contributor to atrial fibrillation (AF). The gut microbiota is a complex and dynamic ecosystem containing trillions of microorganisms, which produces bioactive metabolites influencing host health and disease development. In addition to host-specific determinants, lifestyle-related factors such as diet and drugs are important determinants of the gut microbiota composition. In this review, we discuss the evidence suggesting a potential bidirectional association between AF and gut microbiota, identifying gut microbiota-derived metabolites as possible regulators of the AF substrate. We summarize the effect of gut microbiota on the development and progression of AF risk-factors, including heart failure, hypertension, obesity and coronary artery disease. We also discuss the potential antiarrhythmic effects of pharmacological and diet-induced modifications of gut microbiota composition, which may modulate and prevent the progression to AF. Finally, we highlight important gaps in knowledge and areas requiring future investigation. Although data supporting a direct relationship between gut microbiota and AF are very limited at the present time, emerging preclinical and clinical research dealing with mechanistic interactions between gut microbiota and AF is important as it may lead to new insights into AF pathophysiology and the discovery of novel therapeutic targets for AF.

Published

2022

4. Polygenic risk score and coronary artery disease: A meta-analysis of 979,286 participant data

Author

Team Medisch, Circulatory Health, Agbaedeng, Thomas A, Noubiap, Jean Jacques, Mofo Mato, Edith Pascale, Chew, Derek P, Figtree, Gemma A, Said, M Abdullah, van der Harst, Pim, Team Medisch, Circulatory Health, Agbaedeng, Thomas A, Noubiap, Jean Jacques, Mofo Mato, Edith Pascale, Chew, Derek P, Figtree, Gemma A, Said, M Abdullah, and van der Harst, Pim

Published

2021

5. NLRP3 inflammasome is activated in the atrium of an ovine model of sustained obesity:[Meeting Abstract]

Author

Saljic, Arnela, Hohl, Mathias, Li, Na, Agbaedeng, Thomas, Twomey, Darragh, Lau, Dennis, Mahajan, Rajiv, Linz, Dominik, Jespersen, Thomas, Sanders, Prashanthan, Saljic, Arnela, Hohl, Mathias, Li, Na, Agbaedeng, Thomas, Twomey, Darragh, Lau, Dennis, Mahajan, Rajiv, Linz, Dominik, Jespersen, Thomas, and Sanders, Prashanthan

Published

2019