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Listen "Self-Powered Pacemakers: Heart’s Own Energy 11/03/25"
Episode Synopsis
Welcome to Cardiology Today – Recorded November 03, 2025. This episode summarizes 5 key cardiology studies on topics like fetal tachycardia and digoxin. Key takeaway: Self-Powered Pacemakers: Heart’s Own Energy.
Article Links:
Article 1: Narrowed sinus rhythm electrograms in the zone of uniform slow conduction are helpful to identify VT isthmus location, shape, and orientation. (Heart rhythm)
Article 2: Bioelectric energy harvesting from myocardial tissue in vivo: A new method for biological energy collection. (Heart rhythm)
Article 3: Prolonged hospitalization after catheter ablation of ventricular tachycardia: Predictors and outcomes. (Heart rhythm)
Article 4: Effect of leadless left ventricular endocardial and left bundle branch area pacing on biventricular repolarization metrics. (Heart rhythm)
Article 5: The maternal exposure of digoxin and flecainide in relation to the safety and effectiveness in the treatment of non-hydropic fetal tachycardia. (Heart rhythm)
Full episode page: https://podcast.explainheart.com/podcast/self-powered-pacemakers-hearts-own-energy-11-03-25/
Featured Articles
Article 1: Narrowed sinus rhythm electrograms in the zone of uniform slow conduction are helpful to identify VT isthmus location, shape, and orientation.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40578654
Summary: isthmus location, shape, and orientation. This study aimed to improve the identification of ventricular tachycardia (V.T.) isthmus characteristics using substrate mapping. Researchers conducted 31 canine postinfarction experiments, creating an infarct and border zone in the anterior left ventricle. The findings suggest that narrowed sinus rhythm electrograms in the zone of uniform slow conduction are valuable markers for precisely identifying the location, shape, and orientation of the V.T. isthmus. This advancement provides a more accurate method for delineating V.T. reentry circuits, which is critical for successful catheter ablation.
Article 2: Bioelectric energy harvesting from myocardial tissue in vivo: A new method for biological energy collection.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40499804
Summary: This study explored the innovative concept of bioelectric energy harvesting directly from myocardial tissue in vivo. Researchers developed an electrophysiological measurement system utilizing microneedle electrodes to collect energy from the heart. The investigation compared the available harvested energy with the energy consumption required for cardiac pacing. This research demonstrates the potential feasibility of an internal, self-powered energy source for cardiac devices, representing a significant step towards eliminating the need for traditional batteries in pacemakers.
Article 3: Prolonged hospitalization after catheter ablation of ventricular tachycardia: Predictors and outcomes.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40472946
Summary: This retrospective cohort study investigated predictors of prolonged hospitalization following catheter ablation of ventricular tachycardia (V.T.) in patients with structural heart disease. Researchers analyzed 318 patient cases between January 2022 and October 2024, defining prolonged hospitalization as a post-ablation length of stay greater than seven days. The study successfully identified key factors predicting extended hospitalization after V.T. ablation, along with their subsequent impact on patient outcomes. These findings are critical for improving patient selection, optimizing post-procedural care strategies, and potentially reducing adverse events.
Article 4: Effect of leadless left ventricular endocardial and left bundle branch area pacing on biventricular repolarization metrics.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40436356
Summary: This study aimed to evaluate the impact of leadless left ventricular (L.V.) endocardial pacing and leadless left bundle branch area pacing (L.B.B.A.P.) on biventricular repolarization metrics. The researchers analyzed data derived from electrocardiographic (E.C.G.) imaging to assess these effects, contrasting them with traditional cardiac resynchronization therapy (C.R.T.) delivered via L.V. epicardial pacing. The findings demonstrated how these leadless pacing modalities may preserve a more physiological transmural activation pattern, thereby potentially mitigating arrhythmic risk. This research provides crucial insights for developing safer and more effective cardiac resynchronization strategies for patients needing advanced pacing.
Article 5: The maternal exposure of digoxin and flecainide in relation to the safety and effectiveness in the treatment of non-hydropic fetal tachycardia.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40412599
Summary: This retrospective case series investigated the safety and effectiveness of transplacental antiarrhythmic therapy for non-hydropic fetal tachycardia. The study evaluated the complex relationship between maternal digoxin and flecainide doses, corresponding maternal and umbilical cord concentrations, and any associated side effects. Researchers included 28 pregnant women initially treated with digoxin monotherapy for fetal tachycardia. This important research provides clearer guidance on optimizing antiarrhythmic drug dosages, contributing to safer and more effective management of fetal arrhythmias.
Transcript
Today’s date is November 03, 2025. Welcome to Cardiology Today. Here are the latest research findings.
Article number one. Narrowed sinus rhythm electrograms in the zone of uniform slow conduction are helpful to identify V.T. isthmus location, shape, and orientation. This study aimed to improve the identification of ventricular tachycardia (V.T.) isthmus characteristics using substrate mapping. Researchers conducted 31 canine postinfarction experiments, creating an infarct and border zone in the anterior left ventricle. The findings suggest that narrowed sinus rhythm electrograms in the zone of uniform slow conduction are valuable markers for precisely identifying the location, shape, and orientation of the V.T. isthmus. This advancement provides a more accurate method for delineating V.T. reentry circuits, which is critical for successful catheter ablation.
Article number two. Bioelectric energy harvesting from myocardial tissue in vivo: A new method for biological energy collection. This study explored the innovative concept of bioelectric energy harvesting directly from myocardial tissue in vivo. Researchers developed an electrophysiological measurement system utilizing microneedle electrodes to collect energy from the heart. The investigation compared the available harvested energy with the energy consumption required for cardiac pacing. This research demonstrates the potential feasibility of an internal, self-powered energy source for cardiac devices, representing a significant step towards eliminating the need for traditional batteries in pacemakers.
Article number three. Prolonged hospitalization after catheter ablation of ventricular tachycardia: Predictors and outcomes. This retrospective cohort study investigated predictors of prolonged hospitalization following catheter ablation of ventricular tachycardia (V.T.) in patients with structural heart disease. Researchers analyzed 318 patient cases between January 2022 and October 2024, defining prolonged hospitalization as a post-ablation length of stay greater than seven days. The study successfully identified key factors predicting extended hospitalization after V.T. ablation, along with their subsequent impact on patient outcomes. These findings are critical for improving patient selection, optimizing post-procedural care strategies, and potentially reducing adverse events.
Article number four. Effect of leadless left ventricular endocardial and left bundle branch area pacing on biventricular repolarization metrics. This study aimed to evaluate the impact of leadless left ventricular (L.V.) endocardial pacing and leadless left bundle branch area pacing (L.B.B.A.P.) on biventricular repolarization metrics. The researchers analyzed data derived from electrocardiographic (E.C.G.) imaging to assess these effects, contrasting them with traditional cardiac resynchronization therapy (C.R.T.) delivered via L.V. epicardial pacing. The findings demonstrated how these leadless pacing modalities may preserve a more physiological transmural activation pattern, thereby potentially mitigating arrhythmic risk. This research provides crucial insights for developing safer and more effective cardiac resynchronization strategies for patients needing advanced pacing.
Article number five. The maternal exposure of digoxin and flecainide in relation to the safety and effectiveness in the treatment of non-hydropic fetal tachycardia. This retrospective case series investigated the safety and effectiveness of transplacental antiarrhythmic therapy for non-hydropic fetal tachycardia. The study evaluated the complex relationship between maternal digoxin and flecainide doses, corresponding maternal and umbilical cord concentrations, and any associated side effects. Researchers included 28 pregnant women initially treated with digoxin monotherapy for fetal tachycardia. This important research provides clearer guidance on optimizing antiarrhythmic drug dosages, contributing to safer and more effective management of fetal arrhythmias.
Thank you for listening. Don’t forget to subscribe.
Keywords
fetal tachycardia, digoxin, ventricular repolarization, flecainide, myocardial tissue, in vivo, V.T. isthmus, maternal exposure, patient outcomes, left ventricular pacing, self-powered devices, left bundle branch area pacing, structural heart disease, catheter ablation, ventricular tachycardia, transplacental antiarrhythmic therapy, ventricular tachycardia ablation, retrospective case series, substrate mapping, bioelectric energy harvesting, electrocardiographic imaging, prolonged hospitalization, cardiac resynchronization therapy, electrograms, retrospective cohort study, leadless pacing, cardiac pacing.
About
Concise summaries of cardiovascular research for professionals.
Subscribe • Share • FollowThe post Self-Powered Pacemakers: Heart’s Own Energy 11/03/25 first appeared on Cardiology Today.
Article Links:
Article 1: Narrowed sinus rhythm electrograms in the zone of uniform slow conduction are helpful to identify VT isthmus location, shape, and orientation. (Heart rhythm)
Article 2: Bioelectric energy harvesting from myocardial tissue in vivo: A new method for biological energy collection. (Heart rhythm)
Article 3: Prolonged hospitalization after catheter ablation of ventricular tachycardia: Predictors and outcomes. (Heart rhythm)
Article 4: Effect of leadless left ventricular endocardial and left bundle branch area pacing on biventricular repolarization metrics. (Heart rhythm)
Article 5: The maternal exposure of digoxin and flecainide in relation to the safety and effectiveness in the treatment of non-hydropic fetal tachycardia. (Heart rhythm)
Full episode page: https://podcast.explainheart.com/podcast/self-powered-pacemakers-hearts-own-energy-11-03-25/
Featured Articles
Article 1: Narrowed sinus rhythm electrograms in the zone of uniform slow conduction are helpful to identify VT isthmus location, shape, and orientation.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40578654
Summary: isthmus location, shape, and orientation. This study aimed to improve the identification of ventricular tachycardia (V.T.) isthmus characteristics using substrate mapping. Researchers conducted 31 canine postinfarction experiments, creating an infarct and border zone in the anterior left ventricle. The findings suggest that narrowed sinus rhythm electrograms in the zone of uniform slow conduction are valuable markers for precisely identifying the location, shape, and orientation of the V.T. isthmus. This advancement provides a more accurate method for delineating V.T. reentry circuits, which is critical for successful catheter ablation.
Article 2: Bioelectric energy harvesting from myocardial tissue in vivo: A new method for biological energy collection.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40499804
Summary: This study explored the innovative concept of bioelectric energy harvesting directly from myocardial tissue in vivo. Researchers developed an electrophysiological measurement system utilizing microneedle electrodes to collect energy from the heart. The investigation compared the available harvested energy with the energy consumption required for cardiac pacing. This research demonstrates the potential feasibility of an internal, self-powered energy source for cardiac devices, representing a significant step towards eliminating the need for traditional batteries in pacemakers.
Article 3: Prolonged hospitalization after catheter ablation of ventricular tachycardia: Predictors and outcomes.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40472946
Summary: This retrospective cohort study investigated predictors of prolonged hospitalization following catheter ablation of ventricular tachycardia (V.T.) in patients with structural heart disease. Researchers analyzed 318 patient cases between January 2022 and October 2024, defining prolonged hospitalization as a post-ablation length of stay greater than seven days. The study successfully identified key factors predicting extended hospitalization after V.T. ablation, along with their subsequent impact on patient outcomes. These findings are critical for improving patient selection, optimizing post-procedural care strategies, and potentially reducing adverse events.
Article 4: Effect of leadless left ventricular endocardial and left bundle branch area pacing on biventricular repolarization metrics.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40436356
Summary: This study aimed to evaluate the impact of leadless left ventricular (L.V.) endocardial pacing and leadless left bundle branch area pacing (L.B.B.A.P.) on biventricular repolarization metrics. The researchers analyzed data derived from electrocardiographic (E.C.G.) imaging to assess these effects, contrasting them with traditional cardiac resynchronization therapy (C.R.T.) delivered via L.V. epicardial pacing. The findings demonstrated how these leadless pacing modalities may preserve a more physiological transmural activation pattern, thereby potentially mitigating arrhythmic risk. This research provides crucial insights for developing safer and more effective cardiac resynchronization strategies for patients needing advanced pacing.
Article 5: The maternal exposure of digoxin and flecainide in relation to the safety and effectiveness in the treatment of non-hydropic fetal tachycardia.
Journal: Heart rhythm
PubMed Link: https://pubmed.ncbi.nlm.nih.gov/40412599
Summary: This retrospective case series investigated the safety and effectiveness of transplacental antiarrhythmic therapy for non-hydropic fetal tachycardia. The study evaluated the complex relationship between maternal digoxin and flecainide doses, corresponding maternal and umbilical cord concentrations, and any associated side effects. Researchers included 28 pregnant women initially treated with digoxin monotherapy for fetal tachycardia. This important research provides clearer guidance on optimizing antiarrhythmic drug dosages, contributing to safer and more effective management of fetal arrhythmias.
Transcript
Today’s date is November 03, 2025. Welcome to Cardiology Today. Here are the latest research findings.
Article number one. Narrowed sinus rhythm electrograms in the zone of uniform slow conduction are helpful to identify V.T. isthmus location, shape, and orientation. This study aimed to improve the identification of ventricular tachycardia (V.T.) isthmus characteristics using substrate mapping. Researchers conducted 31 canine postinfarction experiments, creating an infarct and border zone in the anterior left ventricle. The findings suggest that narrowed sinus rhythm electrograms in the zone of uniform slow conduction are valuable markers for precisely identifying the location, shape, and orientation of the V.T. isthmus. This advancement provides a more accurate method for delineating V.T. reentry circuits, which is critical for successful catheter ablation.
Article number two. Bioelectric energy harvesting from myocardial tissue in vivo: A new method for biological energy collection. This study explored the innovative concept of bioelectric energy harvesting directly from myocardial tissue in vivo. Researchers developed an electrophysiological measurement system utilizing microneedle electrodes to collect energy from the heart. The investigation compared the available harvested energy with the energy consumption required for cardiac pacing. This research demonstrates the potential feasibility of an internal, self-powered energy source for cardiac devices, representing a significant step towards eliminating the need for traditional batteries in pacemakers.
Article number three. Prolonged hospitalization after catheter ablation of ventricular tachycardia: Predictors and outcomes. This retrospective cohort study investigated predictors of prolonged hospitalization following catheter ablation of ventricular tachycardia (V.T.) in patients with structural heart disease. Researchers analyzed 318 patient cases between January 2022 and October 2024, defining prolonged hospitalization as a post-ablation length of stay greater than seven days. The study successfully identified key factors predicting extended hospitalization after V.T. ablation, along with their subsequent impact on patient outcomes. These findings are critical for improving patient selection, optimizing post-procedural care strategies, and potentially reducing adverse events.
Article number four. Effect of leadless left ventricular endocardial and left bundle branch area pacing on biventricular repolarization metrics. This study aimed to evaluate the impact of leadless left ventricular (L.V.) endocardial pacing and leadless left bundle branch area pacing (L.B.B.A.P.) on biventricular repolarization metrics. The researchers analyzed data derived from electrocardiographic (E.C.G.) imaging to assess these effects, contrasting them with traditional cardiac resynchronization therapy (C.R.T.) delivered via L.V. epicardial pacing. The findings demonstrated how these leadless pacing modalities may preserve a more physiological transmural activation pattern, thereby potentially mitigating arrhythmic risk. This research provides crucial insights for developing safer and more effective cardiac resynchronization strategies for patients needing advanced pacing.
Article number five. The maternal exposure of digoxin and flecainide in relation to the safety and effectiveness in the treatment of non-hydropic fetal tachycardia. This retrospective case series investigated the safety and effectiveness of transplacental antiarrhythmic therapy for non-hydropic fetal tachycardia. The study evaluated the complex relationship between maternal digoxin and flecainide doses, corresponding maternal and umbilical cord concentrations, and any associated side effects. Researchers included 28 pregnant women initially treated with digoxin monotherapy for fetal tachycardia. This important research provides clearer guidance on optimizing antiarrhythmic drug dosages, contributing to safer and more effective management of fetal arrhythmias.
Thank you for listening. Don’t forget to subscribe.
Keywords
fetal tachycardia, digoxin, ventricular repolarization, flecainide, myocardial tissue, in vivo, V.T. isthmus, maternal exposure, patient outcomes, left ventricular pacing, self-powered devices, left bundle branch area pacing, structural heart disease, catheter ablation, ventricular tachycardia, transplacental antiarrhythmic therapy, ventricular tachycardia ablation, retrospective case series, substrate mapping, bioelectric energy harvesting, electrocardiographic imaging, prolonged hospitalization, cardiac resynchronization therapy, electrograms, retrospective cohort study, leadless pacing, cardiac pacing.
About
Concise summaries of cardiovascular research for professionals.
Subscribe • Share • FollowThe post Self-Powered Pacemakers: Heart’s Own Energy 11/03/25 first appeared on Cardiology Today.
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