Your search keyword '"Kochhäuser S"' showing total 11 results

1. Proarrhythmic Effect of Acetylcholine-Esterase Inhibitors Used in the Treatment of Alzheimer's Disease: Benefit of Rivastigmine in an Experimental Whole-Heart Model.

Author

Ellermann C, Coenen A, Niehues P, Leitz P, Kochhäuser S, Dechering DG, Fehr M, Eckardt L, and Frommeyer G

Subjects

Action Potentials drug effects, Animals, Arrhythmias, Cardiac physiopathology, Cardiotoxicity, Heart Conduction System physiopathology, Isolated Heart Preparation, Rabbits, Refractory Period, Electrophysiological drug effects, Risk Assessment, Time Factors, Arrhythmias, Cardiac chemically induced, Cholinesterase Inhibitors toxicity, Donepezil toxicity, Galantamine toxicity, Heart Conduction System drug effects, Heart Rate drug effects, Rivastigmine toxicity

Abstract

Several studies suggest QT prolongation and torsade de pointes with acetylcholine-esterase inhibitors. We therefore examined the electrophysiologic profile of donepezil, rivastigmine, and galantamine in a sensitive whole-heart model of proarrhythmia. 34 rabbit hearts were isolated and retrogradely perfused employing the Langendorff setup. Hearts were treated either with donepezil, rivastigmine, or galantamine in rising concentrations and electrophysiologic studies were performed. In the presence of donepezil and galantamine, spatial dispersion of repolarization was amplified. Cardiac repolarization (QT interval and action potential duration) was prolonged with donepezil but not with galantamine. Remarkably, both drugs induced triggered activity (early afterdepolarizations and torsade de pointes tachycardia). Despite a pronounced prolongation of repolarization with rivastigmine, no increase in spatial dispersion of repolarization and thus no triggered activity was observed. In the present study, donepezil and galantamine provoked triggered activity, whereas rivastigmine did not have proarrhythmic effects. Spatial dispersion of repolarization but not duration of cardiac repolarization was associated with increased risk of drug-induced proarrhythmia with acetylcholine-esterase inhibitors. Consequently, QT interval duration might be insufficient to estimate the risk of proarrhythmia with acetylcholine-esterase inhibitors. Our findings emphasize the need for further electrocardiographic risk predictors.

Published

2020

2. Spotlight on S-ICD™ therapy: 10 years of clinical experience and innovation.

Author

Bögeholz N, Willy K, Niehues P, Rath B, Dechering DG, Frommeyer G, Kochhäuser S, Löher A, Köbe J, Reinke F, and Eckardt L

Subjects

Arrhythmias, Cardiac physiopathology, Decision Making, Diffusion of Innovation, Humans, Arrhythmias, Cardiac therapy, Death, Sudden, Cardiac prevention & control, Defibrillators, Implantable, Patient Selection

Abstract

Subcutaneous ICD (S-ICD™) therapy has been established in initial clinical trials and current international guideline recommendations for patients without demand for pacing, cardiac resynchronization, or antitachycardia pacing. The promising experience in 'ideal' S-ICD™ candidates increasingly encourages physicians to provide the benefits of S-ICD™ therapy to patients in clinical constellations beyond 'classical' indications of S-ICD™ therapy, which has led to a broadening of S-ICD™ indications in many centres. However, the decision for S-ICD™ implantation is still not covered by controlled randomized trials but rather relies on patient series or observational studies. Thus, this review intends to give a contemporary update on available empirical evidence data and technical advancements of S-ICD™ technology and sheds a spotlight on S-ICD™ therapy in recently discovered fields of indication beyond ideal preconditions. We discuss the eligibility for S-ICD™ therapy in Brugada syndrome as an example for an adverse and dynamic electrocardiographic pattern that challenges the S-ICD™ sensing and detection algorithms. Besides, the S-ICD™ performance and defibrillation efficacy in conditions of adverse structural remodelling as exemplified for hypertrophic cardiomyopathy is discussed. In addition, we review recent data on potential device interactions between S-ICD™ systems and other implantable cardio-active systems (e.g. pacemakers) including specific recommendations, how these could be prevented. Finally, we evaluate limitations of S-ICD™ therapy in adverse patient constitutions, like distinct obesity, and present contemporary strategies to assure proper S-ICD™ performance in these patients. Overall, the S-ICD™ performance is promising even for many patients, who may not be 'classical' candidates for this technology., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2019. For permissions, please email: journals.permissions@oup.com.)

Published

2019

3. Antiarrhythmic effect of antazoline in experimental models of acquired short- and long-QT-syndromes.

Author

Ellermann C, Sterneberg M, Kochhäuser S, Dechering DG, Fehr M, Eckardt L, and Frommeyer G

Subjects

Adrenergic beta-Antagonists toxicity, Animals, Anti-Bacterial Agents toxicity, Arrhythmias, Cardiac chemically induced, Disease Models, Animal, Erythromycin toxicity, Isolated Heart Preparation, Long QT Syndrome chemically induced, Membrane Transport Modulators toxicity, Pinacidil toxicity, Rabbits, Sotalol toxicity, Torsades de Pointes chemically induced, Ventricular Fibrillation chemically induced, Action Potentials drug effects, Antazoline pharmacology, Arrhythmias, Cardiac physiopathology, Histamine H1 Antagonists pharmacology, Long QT Syndrome physiopathology, Refractory Period, Electrophysiological drug effects, Torsades de Pointes physiopathology, Ventricular Fibrillation physiopathology

Abstract

Aims: Antazoline is a first-generation antihistamine with antiarrhythmic properties. This study examines potential electrophysiological effects of antazoline in short-QT-syndrome (SQTS) and long-QT-syndrome (LQTS)., Methods and Results: Sixty-five rabbit hearts were Langendorff-perfused. Action potential duration at 90% of repolarization (APD90), QT-interval, spatial dispersion (DISP), and effective refractory period (ERP) were measured. The IK, ATP-opener pinacidil (1 µM, n = 14) reduced APD90 (-14 ms, P < 0.01), QT-interval (-14 ms, P < 0.01), and ERP (-11 ms, P < 0.01), thus simulating acquired SQTS. Additional infusion of 20 µM antazoline prolonged repolarization. Under baseline conditions, ventricular fibrillation (VF) was inducible in 5 of 14 hearts (10 episodes) and in 5 of 14 pinacidil-treated hearts (21 episodes, P = ns). Antazoline significantly reduced induction of VF (0 episodes, P < 0.05 each). Further 17 hearts were perfused with 100 µM sotalol and 17 hearts with 300 µM erythromycin to induce acquired LQTS2. In both groups, prolongation of APD90, QT-interval, and ERP was observed. Spatial dispersion was increased (sotalol: +26 ms, P < 0.01; erythromycin: +31 ms, P < 0.01). Additional infusion of antazoline reduced DISP (sotalol: -22 ms, P < 0.01; erythromycin: -26 ms, P < 0.01). Torsade de pointes (TdP) occurred in 6 of 17 sotalol-treated (22 episodes, P < 0.05 each) and in 8 of 17 erythromycin-treated hearts (96 episodes P < 0.05 each). Additional infusion of antazoline completely suppressed TdP in both groups (P < 0.05 each). Acquired LQTS3 was induced by veratridine (0.5 µM, n = 17) and similar results were obtained (APD90: +24 ms, P < 0.01, QT-interval: +58 ms, P < 0.01, DISP: +38 ms, P < 0.01). Torsade de pointes occurred in 10 of 17 hearts (41 episodes, P < 0.05 each). Antazoline significantly reduced TdP (2 of 17 hearts, 4 episodes, P < 0.05 each)., Conclusion: Antazoline significantly reduced induction of VF in an experimental model of acquired SQTS. In three experimental models of acquired LQTS, antazoline effectively suppressed TdP.

Published

2018

4. Broad antiarrhythmic effect of mexiletine in different arrhythmia models.

Author

Frommeyer G, Garthmann J, Ellermann C, Dechering DG, Kochhäuser S, Reinke F, Köbe J, Wasmer K, and Eckardt L

Subjects

Action Potentials drug effects, Animals, Arrhythmias, Cardiac physiopathology, Atrial Fibrillation physiopathology, Disease Models, Animal, Heart Conduction System physiopathology, Isolated Heart Preparation, Long QT Syndrome physiopathology, Rabbits, Tachycardia, Ventricular physiopathology, Time Factors, Anti-Arrhythmia Agents pharmacology, Arrhythmias, Cardiac prevention & control, Atrial Fibrillation prevention & control, Heart Conduction System drug effects, Heart Rate drug effects, Long QT Syndrome prevention & control, Mexiletine pharmacology, Tachycardia, Ventricular prevention & control

Abstract

Aims: Experimental studies and clinical reports suggest antiarrhythmic properties of mexiletine in different arrhythmias. We aimed at investigating mexiletine in experimental models of atrial fibrillation (AF) as well as in long-QT- (LQTS) and short-QT-syndrome (SQTS)., Methods and Results: In 15 isolated rabbit hearts, erythromycin (300 µM) was infused for simulation of long-QT-2-syndrome. In further 13 hearts, veratridine was administered to simulate long-QT-3-syndrome. Both drugs induced a significant QT-prolongation (erythromycin: +87 ms, P < 0.01; veratridine: +19 ms, P < 0.05) and increased dispersion of repolarization (erythromycin: +55 ms, P < 0.01; veratridine +31 ms, P < 0.01). Additional infusion of mexiletine (25 µM) resulted in a significant reduction of dispersion (erythromycin: -43 ms, P < 0.01; veratridine: -26 ms, P < 0.05). Reproducible induction of torsade de pointes was observed in 13 of 15 erythromycin-treated hearts (192 episodes) and 6 of 13 veratridine-treated hearts (36 episodes). Additional infusion of mexiletine significantly reduced ventricular tachycardia (VT) incidence. With mexiletine, only 3 of 15 erythromycin-treated hearts (27 episodes) and 1 of 13 veratridine-treated hearts (2 episodes) presented polymorphic VT. In additional 9 hearts, the IK-ATP-channel-opener pinacidil was employed to simulate SQTS and significantly abbreviated ventricular repolarization (QT-interval: -18 ms, P < 0.05) and enhanced induction of ventricular fibrillation (VF). Mexiletine reversed the effects of pinacidil, increase refractory period (+127 ms, P < 0.01) and significantly suppressed induction of VF. In further 13 hearts AF was induced by combined treatment with acetylcholine/isoproterenol. Mexiletine also increased atrial refractory period (+80 ms, P < 0.01) and thereby effectively suppressed atrial fibrillation., Conclusion: Acute infusion of mexiletine significantly reduced the occurrence of polymorphic VT in the presence of pharmacologically simulated LQTS. Furthermore, mexiletine demonstrated potent antiarrhythmic properties in a model of SQTS and in AF.

Published

2018

5. Additive Proarrhythmic Effect of Combined Treatment with QT-Prolonging Agents.

Author

Frommeyer G, Fischer C, Ellermann C, Dechering DG, Kochhäuser S, Lange PS, Wasmer K, Fehr M, and Eckardt L

Subjects

Action Potentials drug effects, Animals, Arrhythmias, Cardiac physiopathology, Drug Interactions, Female, Heart Conduction System physiopathology, Isolated Heart Preparation, Proof of Concept Study, Rabbits, Time Factors, Arrhythmias, Cardiac chemically induced, Domperidone toxicity, Erythromycin toxicity, Heart Conduction System drug effects, Heart Rate drug effects, Ondansetron toxicity, Trimethoprim, Sulfamethoxazole Drug Combination toxicity

Abstract

Drug combinations may elevate the risk of proarrhythmia. The aim of the present study was to investigate whether combinations of non-cardiovascular agents induce an additive increase in the proarrhythmic risk. In 12 female rabbit hearts, a drug combination of cotrimoxazole (300 µM), ondansetron (5 µM) and domperidone (1 µM) was infused after obtaining baseline data. In another 13 hearts, a combination of cotrimoxazole (300 µM), ondansetron (5 µM) and erythromycin (300 µM) was infused. Monophasic action potentials and ECG displayed a significant QT prolongation in all groups. This was accompanied by a significant increase in action potential duration. Of note, addition of each drug resulted in a further increase in the QT interval. Furthermore, a significant elevation of spatial dispersion of repolarization was observed. Lowering of potassium concentration in bradycardic AV-blocked hearts provoked early afterdepolarizations and torsade de pointes (TDP) in both study groups. Under baseline conditions, no episodes of TDP recorded. After administration of the first agent, TDP occurred in 5 of 12 hearts (37 episodes) and 5 of 13 hearts (26 episodes), respectively. After additional infusion of the second drug, TDP were recorded in 7 of 12 hearts (55 episodes) and 8 of 13 hearts (111 episodes). After additional infusion of the third drug, TDP occurred in 11 of 12 hearts (118 episodes) and 9 of 13 hearts (88 episodes). Combined treatment with several non-cardiovascular QT-prolonging agents resulted in a remarkable occurrence of proarrhythmia. An additive and significant prolongation of cardiac repolarization combined with an increased spatial dispersion of repolarization represents the underlying electrophysiological mechanism.

Published

2018

6. Severe Proarrhythmic Potential of the Antiemetic Agents Ondansetron and Domperidone.

Author

Frommeyer G, Fischer C, Ellermann C, Lange PS, Dechering DG, Kochhäuser S, Fehr M, and Eckardt L

Subjects

Animals, Dose-Response Relationship, Drug, Female, Rabbits, Antiemetics toxicity, Arrhythmias, Cardiac chemically induced, Arrhythmias, Cardiac physiopathology, Domperidone toxicity, Ondansetron toxicity, Severity of Illness Index

Abstract

The potential of ondansetron and domperidone, both clinically established antiemetic agents, to increase the QT-interval has been described in several case reports. Therefore, the aim of the present study was to investigate whether these drugs may provoke polymorphic ventricular tachycardia in a sensitive experimental model of drug-induced proarrhythmia. In 10 female rabbits, ondansetron (1, 5 and 10 µM, n = 10) or domperidone (0.5, 1 and 2 µM, n = 8) was infused after obtaining baseline data. Eight endo- and epicardial monophasic action potentials and a simultaneously recorded 12-lead ECG reproduced the clinically observed QT-prolongation (ondansetron: 1 µM:+17 ms, 5 µM:+41 ms, 10 µM:+78 ms, p < 0.01; domperidone: 0.5 µM:+57 ms, 1 µM:+79 ms, 2 µM:+99 ms, p < 0.01). This was accompanied by a significant increase in action potential duration at 90% of repolarization. Administration of both agents also increased dispersion of repolarization (ondansetron: 1 µM:+12 ms, 5 µM:+17 ms; 10 µM:+18 ms, p < 0.05; domperidone: 0.5 µM:+19 ms, 1 µM:+27 ms; 2 µM:+23 ms p < 0.05). Lowering of potassium concentration in bradycardic AV-blocked hearts provoked early afterdepolarizations (EADs) in 9 of 10 ondansetron-treated hearts and induced polymorphic ventricular tachycardia (VT) resembling torsade de pointes in 7 of 10 ondansetron-treated hearts (86 episodes). Under the influence of domperidone, EAD and polymorphic VT occurred in 7 of 8 hearts (131 episodes). In the present study, both ondansetron and domperidone demonstrated a severe proarrhythmic potential. A significant prolongation of cardiac repolarization as well as a marked increase in spatial dispersion of repolarization represents the underlying electrophysiologic mechanisms. These results imply that application of ondansetron should be handled carefully. For regular administration, ECG monitoring should be mandatory.

Published

2017

7. Antiarrhythmic properties of ivabradine in an experimental model of Short-QT- Syndrome.

Author

Frommeyer G, Weller J, Ellermann C, Kaese S, Kochhäuser S, Lange PS, Dechering DG, and Eckardt L

Subjects

Animals, Anti-Arrhythmia Agents therapeutic use, Arrhythmias, Cardiac physiopathology, Benzazepines therapeutic use, Disease Models, Animal, Dose-Response Relationship, Drug, Ivabradine, Refractory Period, Electrophysiological drug effects, Ventricular Dysfunction drug therapy, Anti-Arrhythmia Agents pharmacology, Arrhythmias, Cardiac drug therapy, Benzazepines pharmacology

Abstract

The I f channel inhibitor ivabradine is recommended for treatment of chronic heart failure. However, ivabradine also inhibits human ether-a-go-go (hERG) mediated potassium currents. The aim of the present study was to assess the electrophysiologic effects of ivabradine in an experimental model of short-QT-syndrome. Twelve rabbit hearts were isolated and Langendorff-perfused. After obtaining baseline data, pinacidil, an I K-ATP channel opener, was infused (1 μmol/L). Eight endo- and epicardial monophasic action potentials and a 12-lead ECG showed a significant abbreviation of QT interval (-32 ms, P<.05) and shortening of action potential duration at 90% of repolarization (APD90; -22 ms, P<.05). The shortening of ventricular repolarization was accompanied by a reduction of effective refractory period (ERP; -20 ms, P<.05). Thereafter, hearts were additionally treated with ivabradine (5 μmol/L) leading to an increase of QT interval (+31 ms, P<.05), APD90 (+15 ms, P<.05) as well as of ERP (+38 ms, P<.05) and post-repolarization refractoriness (PRR, +33 ms, P<.05) as compared with sole pinacidil infusion. Under baseline conditions, ventricular fibrillation (VF) was inducible by a standardized pacing protocol including programmed stimulation and burst stimulation in 3 of 12 hearts (6 episodes). After application of 1 μmol/L pinacidil, 6 of 12 hearts were inducible (22 episodes). Additional infusion of 5 μmol/L ivabradine led to a significant suppression of VF. Only two episodes could be induced in 1 of 12 hearts. In the present study ivabradine reversed the electrophysiologic effects of pharmacologically simulated short-QT syndrome. Ivabradine demonstrated antiarrhythmic properties based on an increase of both ERP and PRR., (© 2017 John Wiley & Sons Australia, Ltd.)

Published

2017

8. Ranolazine and Vernakalant Prevent Ventricular Arrhythmias in an Experimental Whole-Heart Model of Short QT Syndrome.

Author

Frommeyer G, Ellermann C, Dechering DG, Kochhäuser S, Bögeholz N, Güner F, Leitz P, Pott C, and Eckardt L

Subjects

Action Potentials drug effects, Animals, Arrhythmias, Cardiac diagnosis, Arrhythmias, Cardiac physiopathology, Cardiac Pacing, Artificial, Disease Models, Animal, Electrocardiography, Heart Rate drug effects, Isolated Heart Preparation, Pinacidil, Rabbits, Time Factors, Ventricular Fibrillation diagnosis, Ventricular Fibrillation physiopathology, Anisoles pharmacology, Anti-Arrhythmia Agents pharmacology, Arrhythmias, Cardiac drug therapy, Pyrrolidines pharmacology, Ranolazine pharmacology, Sodium Channel Blockers pharmacology, Ventricular Fibrillation prevention & control

Abstract

Background: Ranolazine has been reported to have an antiarrhythmic potential. The aim of this study was to assess the electrophysiologic effects of ranolazine and to compare its effects to vernakalant in an experimental whole-heart model of short-QT syndrome., Methods: Rabbit hearts were isolated and Langendorff-perfused. After obtaining baseline data, pinacidil, an IK ATP channel opener, was administered (1 μM)., Results: Endo- and epicardial monophasic action potentials and a 12-lead ECG showed a significant abbreviation of QT interval (- 34 milliseconds, P < 0.05) and action potential duration (APD 90 ; - 31 milliseconds, P < 0.05). This was accompanied by a reduction of effective refractory period (ERP; - 32 milliseconds, P < 0.05). Subsequently, hearts were additionally perfused with ranolazine (10 μM, n = 12) or vernakalant (10 μM, n = 14). Ranolazine led to an increase of QT-interval (+ 29 milliseconds, P < 0.05), APD 90 (+ 18 milliseconds, P < 0.05) and ERP (+ 28 milliseconds, P < 0.05) as compared with sole pinacidil treatment. Similar results were observed under the influence of vernakalant (APD90: + 25 milliseconds, QT-interval: + 34 milliseconds, ERP: + 31 milliseconds). Under the influence of pinacidil, ventricular fibrillation (VF) was inducible by a standardized pacing protocol including programmed stimulation and aggressive burst stimulation in 8 of 12 hearts (ranolazine group, 34 episodes) and 7 of 14 hearts (vernakalant group, 24 episodes). Additional infusion of ranolazine (1 of 12 hearts, 1 episode) or vernakalant (1 of 14 hearts, 3 episodes) led to a significant suppression of VF., Conclusion: In the present pharmacologic model of short QT syndrome treatment with pinacidil led to an increased inducibility of VF in association with a reduction in ERP. Additional treatment with ranolazine or vernakalant reversed this effect and demonstrated potent antiarrhythmic properties based on an increase of ERP., (© 2016 Wiley Periodicals, Inc.)

Published

2016

9. Supraventricular premature beats and short atrial runs predict atrial fibrillation in continuously monitored patients with cryptogenic stroke.

Author

Kochhäuser S, Dechering DG, Dittrich R, Reinke F, Ritter MA, Ramtin S, Duning T, Frommeyer G, and Eckardt L

Subjects

Aged, Atrial Fibrillation therapy, Atrial Premature Complexes therapy, Confidence Intervals, Electrocardiography, Electrocardiography, Ambulatory, Female, Humans, Logistic Models, Male, Middle Aged, ROC Curve, Risk Assessment, Stroke therapy, Arrhythmias, Cardiac physiopathology, Atrial Fibrillation physiopathology, Atrial Premature Complexes physiopathology, Stroke physiopathology

Abstract

Background and Purpose: Supraventricular premature beats (SPBs) may help to assess the risk of atrial fibrillation (AF) in patients with cryptogenic stroke and therefore guide therapy., Methods: An internal loop recorder was implanted in consecutive patients with acute cryptogenic stroke. The occurrence and quantity of SPBs and short supraventricular runs (SVRs) in 24-hour ECG in patients with and without future AF were analyzed. We evaluated the relative risk of the upper quartile of SPB and SVR patients against the remainder and used binary logistic regression to evaluate a possible independent influence of SPBs and SVRs on AF occurrence., Results: Twelve of 70 included patients (mean age, 59±13 years) experienced development of AF during a mean monitoring duration of 536±212 days. Patients with AF had a median of 22.8 SPBs/h versus 1.2 SPBs/h (P<0.0001) in patients without AF and a median of 0.7 SVRs/h (AF) versus 0 SVR/h (non-AF). Patients in the upper quartile of SPBs (>14.1/h) and SVRs (>0.2/h) demonstrated a relative risk of 4.0 (95% confidence interval, 1.1-14.6; P=0.04) and 6.9 (95% confidence interval, 1.8-26.7; P=0.005) for future AF, respectively. In binary logistic regression, SPBs (P=0.02) and SVRs (P=0.05) remained significant independent predictors for occurrence of AF., Conclusions: Numerous SPBs and SVRs demonstrated a high risk for future AF in patients with cryptogenic stroke.

Published

2014

10. Arrhythmia-associated cardiac Ca²(+) cycling proteins and gene mutations.

Author

Kochhäuser S, Schulze-Bahr E, and Kirchhefer U

Subjects

Autistic Disorder, Brugada Syndrome genetics, Brugada Syndrome physiopathology, Calcium Channels, L-Type genetics, Calcium Channels, L-Type physiology, Calsequestrin genetics, Calsequestrin physiology, Cytosol physiology, Diastole physiology, Electrocardiography, Female, Homeostasis genetics, Homeostasis physiology, Humans, Long QT Syndrome genetics, Long QT Syndrome physiopathology, Male, Myofibrils physiology, Ryanodine Receptor Calcium Release Channel genetics, Ryanodine Receptor Calcium Release Channel physiology, Sarcoplasmic Reticulum physiology, Sarcoplasmic Reticulum Calcium-Transporting ATPases genetics, Sarcoplasmic Reticulum Calcium-Transporting ATPases physiology, Sodium-Calcium Exchanger genetics, Sodium-Calcium Exchanger physiology, Syndactyly genetics, Syndactyly physiopathology, Tachycardia, Ventricular genetics, Tachycardia, Ventricular physiopathology, Arrhythmias, Cardiac genetics, Arrhythmias, Cardiac physiopathology, Calcium metabolism, Calcium-Binding Proteins genetics, Calcium-Binding Proteins physiology, Mutation

Abstract

Calcium is an important mediator in cardiac excitation and disorders in cardiac Ca(2+) homeostasis have great influence on the cardiac action potential. Therefore dysfunction in regulatory proteins that are involved in Ca(2+) handling can lead to the occurrence of severe arrhythmia. Although mutations in Ca(2+) regulating proteins are quite rare, they can offer general insights into arrhythmogenesis. Here, we briefly review some important aspects of arrhythmia-associated mutations in Ca(2+) regulating proteins with special emphasis to its associated pathophysiology.

Published

2012

11. Predictors of long-term success after catheter ablation of atriofascicular accessory pathways.

Author

Mönnig G, Wasmer K, Milberg P, Schulz P, Köbe J, Zellerhoff S, Kochhäuser S, Pott C, Hindricks G, Borggrefe M, Breithardt G, and Eckardt L

Subjects

Adolescent, Adult, Aged, Catheter Ablation adverse effects, Child, Electrocardiography, Female, Follow-Up Studies, Humans, Male, Middle Aged, Retrospective Studies, Treatment Outcome, Young Adult, Accessory Atrioventricular Bundle surgery, Arrhythmias, Cardiac surgery, Catheter Ablation methods, Pre-Excitation Syndromes surgery, Tachycardia, Atrioventricular Nodal Reentry surgery

Abstract

Background: Electrophysiologic characteristics, mapping strategies, and acute success rates of radiofrequency catheter ablation of atriofascicular accessory pathways are well described. However, data on long-term prognosis and predictors for freedom from arrhythmias are lacking., Objective: To report our 20-year single-center experience on ablation of atriofascicular fibers., Method: Between 1992 and 2010, 34 patients with atriofascicular accessory pathways underwent catheter ablation at our institution because of symptomatic antidromic atrioventricular reentrant tachycardias. Radiofrequency procedures were retrospectively analyzed, and patients were followed for recurrences of tachyarrhythmias. Electrocardiograms (before and after ablation and at follow-up) were analyzed for each patient., Results: Successful catheter ablation of the atriofascicular fiber was achieved in 23 (68%) patients. Mechanical block during mapping occurred in 3 (9%) patients, and in 2 of them ablation was performed at the site of mechanical block. Mere modification of conduction properties of the pathway without complete block was achieved in 5 patients (15%). Fast pathway ablation was performed in 2 (6%) of the patients ablated in the early 1990s. During follow-up of 9.3 ± 5.5 years, 24 patients (71%) remained free of tachyarrhythmias, 7 reported significant improvement, and 3 (9%) had no change in symptoms after ablation. Long-term success was identical between patients from the first (1992-1999) and second (2000-2010) decade (12 of 17 [71%] vs 12 of 17 [71%]). It was 87% in those with complete block of the atriofascicular fiber while all patients with mechanical block during mapping reported recurrences. Fast pathway ablation was complicated by complete atrioventricular block in 1 patient, who required pacemaker implantation 18 years after ablation owing to loss of conduction properties of the atriofascicular fiber over the years. On analyzing patients with preexcitation before ablation (n = 16; 47%), we found that the PR interval after ablation was significantly longer only in those without recurrence (162 ± 21 ms vs 134 ± 21 ms; P = .042). None of the other analyzed electrocardiographic parameters, including PR, QRS duration, and preexcitation, had prognostic impact., Conclusion: Acute success of complete ablation of atriofascicular pathways is associated with excellent long-term success (87%). Mere modification of conduction properties of atriofascicular fibers or ablation at the sites of mechanical block are less promising end points of ablation with high recurrence rates. Technical innovations during decades may not further improve long-term outcome in these patients., (Copyright © 2012 Heart Rhythm Society. Published by Elsevier Inc. All rights reserved.)

Published

2012