31 results on '"Back Sternick E"'
Search Results
2. Is it safe to monitor oesophageal temperature during AF ablation?
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Back Sternick, E., primary, Cohen Persiano, A., additional, and Arantes, V., additional
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- 2012
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3. Too much sugar leaves a sour taste: A cardiac disease caused by excess glycogen deposit
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Back Sternick Eduardo
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Medicine ,Medicine (General) ,R5-920 - Published
- 2020
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4. How best to describe the location of the substrates for abnormal cardiac rhythms.
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Anderson RH, Back Sternick E, Mahmud R, Cabrera JA, Katritsis D, Farre J, Tretter JT, Spicer DE, Cook AC, and Sanchez-Quintana D
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- 2024
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5. Outcomes with physiologic His bundle pacing in patients with narrow QRS complex.
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Mahmud R, Lee J, Mohan A, Lee M, Phillips B, Hakes S, Talaei F, and Back Sternick E
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- Humans, Male, Female, Aged, Treatment Outcome, Middle Aged, Follow-Up Studies, Heart Rate physiology, Bundle-Branch Block physiopathology, Bundle-Branch Block therapy, Stroke Volume physiology, Ventricular Function, Left physiology, Bundle of His physiopathology, Electrocardiography, Cardiac Pacing, Artificial methods
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Background: In patients with narrow QRS complex, both ventricular and biventricular pacing is associated with increased cardiac morbidity and mortality. This risk is not decreased by ventricular pacing avoidance algorithms, which cause nonphysiologic atrioventricular (AV) delays., Objective: This study aimed to report outcomes in patients with narrow QRS complex when the paced complex is in normal range and physiologic AV delays are programmed., Methods: In 196 patients with QRS duration of 92 ± 10 ms, permanent pacing was done at the site of the His bundle electrogram. The pacemakers were then programmed to maintain physiologic AV delays and to increase heart rates in response to exercise. Patients received usual care and were observed for 3 years., Results: The paced complex exhibited a delta wave, and the ventricular activation time, QRS axis, and lead I voltage remained in normal range. Physiologic programming resulted in His bundle pacing burden of 92%. In patients with decreased ejection fraction, there was significant improvement in left ventricular function, left ventricular dilation, and mitral regurgitation (P < .003). In patients with normal ejection fraction, left ventricular function remained normal without new valvular abnormalities. The 3-year all-cause mortality was 10%, and there was no increase in heart failure admissions., Conclusion: In patients with narrow QRS complex, when paced QRS morphology is maintained in normal range and AV dyssynchrony is avoided, His bundle pacing is associated with low all-cause mortality and improvement in abnormal echocardiographic parameters. The paced QRS morphology and physiologic AV delays may be important factors to evaluate in future trials of conduction system pacing., Competing Interests: Disclosures The authors have no conflicts of interest to disclose., (Copyright © 2024 Heart Rhythm Society. Published by Elsevier Inc. All rights reserved.)
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- 2024
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6. To the Editor-Electrical impulse conduction through superior septal connections as a mechanism to bundle branch block correction is a verifiable assumption.
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Mahmud R, Sanchez-Quintana D, Macias Y, de Almeida MC, Anderson RH, and Back Sternick E
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- Humans, Electrocardiography, Heart Septum physiopathology, Bundle of His physiopathology, Bundle-Branch Block physiopathology, Bundle-Branch Block diagnosis, Bundle-Branch Block therapy, Heart Conduction System physiopathology
- Abstract
Competing Interests: Disclosures The authors have no conflicts of interest to disclose.
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- 2024
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7. Correction of bundle branch block by so-called nonselective His bundle pacing: The potential role of accessory connections in the ventricular septal crest.
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Mahmud R, Sanchez-Quintana D, Macias Y, de Almeida MC, Anderson RH, and Back Sternick E
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- Humans, Accessory Atrioventricular Bundle physiopathology, Bundle of His physiopathology, Bundle-Branch Block physiopathology, Bundle-Branch Block therapy, Cardiac Pacing, Artificial methods, Electrocardiography, Ventricular Septum
- Abstract
Competing Interests: Disclosures We have no conflicts of interest to disclose.
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- 2024
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8. How does the cardiac impulse pass from the sinus to the atrioventricular node?
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Anderson RH, Sánchez-Quintana D, Spicer DE, Farré J, and Back Sternick E
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- Bundle of His, Heart Atria, Sinoatrial Node, Atrioventricular Node, Heart Conduction System
- Abstract
More than a century has passed since Tawara demonstrated the presence of the insulated pathways that extend from the "knoten" at the base of the atrial septum to their ramifications at the ventricular apexes. Having initially doubted the existence of the atrioventricular bundle until reading the monograph produced by Tawara, Keith, together with Flack, soon revealed the presence of the sinus node. Shortly thereafter, Thorel suggested that a special system might be found within the atrial walls, connecting the newly discovered atrial nodes. This prompted the convening of a special session of the German Pathological Society in 1910. The consensus was that no tracts existed within the atrial walls, with Aschoff and Mönckeberg establishing criteria to be met by those proposing recognition of "specialized" atrial conducting pathways. None of those who subsequently proposed the presence of such pathways have discussed their findings on the basis of the criteria established at the meeting of 1910. It remains the case, nonetheless, that drawings continue to be offered by cardiological experts showing narrow pathways within the atrial walls that parallel the arrangement used to show the ventricular conduction pathways. A similar drawing adorns the front cover of Heart Rhythm Journal. We are unaware of any evidence supporting the presence of pathways as illustrated existing within the overall walls of the atrial chambers. In this review, we summarize the evidence that shows, instead, that it is the aggregation of the working atrial cardiomyocytes within the atrial walls that underscores preferential anisotropic interatrial conduction., (Copyright © 2022 Heart Rhythm Society. All rights reserved.)
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- 2022
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9. To the Editor- The anatomical correlations to the atrioventricular node.
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Anderson RH, Sanchez-Quintana D, Farre J, Cabrera JA, Tretter JT, and Back Sternick E
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- Atrioventricular Node, Heart Conduction System
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- 2022
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10. Miniseries 2-Septal and paraseptal accessory pathways-Part III: Mid-paraseptal accessory pathways-revisiting bypass tracts crossing the pyramidal space.
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Farré J, Anderson RH, Rubio JM, García-Talavera C, Sánchez-Quintana D, Bansal R, Lokhandwala Y, Cabrera JA, Wellens HJJ, and Back Sternick E
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- Atrioventricular Node surgery, Bundle of His surgery, Bundle-Branch Block, Electrocardiography, Humans, Accessory Atrioventricular Bundle surgery, Catheter Ablation, Pre-Excitation Syndromes
- Abstract
The mid-paraseptal region corresponds to the portion of the pyramidal space whose right atrial aspect is known as the triangle of Koch. The superior area of this mid-paraseptal region is also para-Hisian, and is close to the compact atrioventricular node and the His bundle. The inferior sector of the mid-paraseptal area is unrelated to the normal atrioventricular conduction pathways. It is, therefore, a safe zone in which, if necessary, to perform catheter ablation. The middle part of the mid-paraseptal zone may, however, in some patients, house components of the compact atrioventricular node. This suggests the need for adopting a prudent attitude when considering catheter ablation in this area. The inferior extensions of the atrioventricular node, which may represent the substrate for the slow atrioventricular nodal pathway, take their course through the middle, and even the inferior, sectors of the mid-paraseptal region. In this review, we contend that the middle and inferior areas of the mid-paraseptal region correspond to what, in the past, was labelled by most groups as the 'midseptal' zone. We describe the electrocardiographic patterns observed during pre-excitation and orthodromic reciprocating tachycardia in patients with pathways ablated in the middle or inferior sectors of the region. We discuss the modification of the ventriculo-atrial conduction times during tachycardia after the development of bundle branch block aberrancy. We conclude that the so-called 'intermediate septal' pathways, as described in the era of surgical ablation, were insufficiently characterized. They should not be considered the surrogate of the 'midseptal' pathways defined using endocardial catheter electrode mapping., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2022. For permissions, please email: journals.permissions@oup.com.)
- Published
- 2022
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11. Miniseries 2-Septal and paraseptal accessory pathways-Part IV: Inferior paraseptal accessory pathways-lessons from surgical and catheter ablation.
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Farré J, Anderson RH, Rubio JM, Tretter JT, Sánchez-Quintana D, García-Talavera C, Bansal R, Lokhandwala YY, Cabrera JA, Wellens HJJ, and Back Sternick E
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- Electrocardiography, Heart Atria surgery, Heart Conduction System surgery, Humans, Accessory Atrioventricular Bundle surgery, Catheter Ablation methods
- Abstract
Surgeons and electrophysiologists performing accessory pathway ablation procedures have used the term 'posteroseptal' region. This area, however, is neither septal nor posterior, but paraseptal and inferior; paraseptal because it includes the fibro-adipose tissues filling the pyramidal space and not the muscular septum itself and inferior because it is part of the heart adjacent to the diaphragm. It should properly be described, therefore, as being inferior and paraseptal. Pathways in this region can be ablated at three areas, which we term right inferior, mid-inferior, and left inferior paraseptal. The right- and left inferior paraseptal pathways connect the right and left atrial vestibules with the right and left paraseptal segments of the parietal ventricular walls. The mid-inferior paraseptal pathways take a subepicardial course from the myocardial sleeves surrounding the coronary sinus and its tributaries. Our review addresses the evolution of the anatomical concept of the inferior paraseptal region derived from surgical and catheter ablation procedures. We also highlight the limitations of the 12-lead electrocardiogram in identifying, without catheter electrode mapping, which are the pathways that can be ablated without a coronary sinus, or left heart approach., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2022. For permissions, please email: journals.permissions@oup.com.)
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- 2022
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12. Miniseries 1-Part IV: How frequent are fasciculo-ventricular connections in the normal heart?
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Macías Y, Tretter JT, Anderson RH, Sánchez-Quintana D, Soares Correa F, Farré J, and Back Sternick E
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- Adult, Atrioventricular Node, Heart Conduction System, Heart Rate, Heart Ventricles, Humans, Pre-Excitation Syndromes
- Abstract
Aims: Seeking to account for accessory atrioventricular conduction potentially leading to ventricular pre-excitation, Mahaim in the mid-20th century had described pathways between the atrioventricular conduction axis and the muscular ventricular septum. We aimed to look for such 'paraspecific' connections in adult human hearts., Methods and Results: We serially sectioned 21 hearts, covering the triangle of Koch and the aortic root, and assessing the atrioventricular node, the penetration of the conduction axis, and the bundle branches in our search for fasciculo-ventricular connections. We also calculated the length of the non-branching bundle, and if present the origin of the fasciculo-ventricular connections. The non-branching bundle was 3.6 ± 1.7 mmin length, varying from 1.7 mm to 7.2 mm. Fasciculo-ventricular connections were found in more than half of the hearts, making direct contact with the muscular septum at an average of 3.5 ± 1.7 mm from the origin of the left bundle branch, with the site of origin varying from 1.1 mm to 5.5 mm from the first fascicle of the left bundle branch. In three hearts, additional fasciculo-fascicular connections were observed in the left bundle branch. Two loops were small, but one loop extended over 9.5 mm., Conclusion: We endorse the finding of Mahaim that fasciculo-ventricular pathways exist in most human hearts. We presume the identified connections had the capability of producing ventricular pre-excitation. More studies are needed to determine the potential clinical manifestations., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2022. For permissions, please email: journals.permissions@oup.com.)
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- 2022
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13. Miniseries 1-Part III: 'Behind the scenes' in the triangle of Koch.
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Tretter JT, Spicer DE, Sánchez-Quintana D, Back Sternick E, Farré J, and Anderson RH
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- Bundle of His, Humans, Tomography, X-Ray Computed, Tricuspid Valve, Atrioventricular Node, Heart Atria anatomy & histology, Heart Atria diagnostic imaging, Heart Atria surgery
- Abstract
Aims: To take full advantage of the knowledge of cardiac anatomy, structures should be considered in their correct attitudinal orientation. Our aim was to discuss the triangle of Koch in an attitudinally appropriate fashion., Methods and Results: We reviewed our material prepared by histological sectioning, along with computed tomographic datasets of human hearts. The triangle of Koch is the right atrial surface of the inferior pyramidal space, being bordered by the tendon of Todaro and the hinge of the septal leaflet of the tricuspid valve, with its base at the inferior cavotricuspid isthmus. The fibro-adipose tissues of the inferior pyramidal space separate the atrial wall from the crest of the muscular interventricular septum, thus producing an atrioventricular muscular sandwich. The overall area is better approached as a pyramid rather than a triangle. The apex of the inferior pyramidal space overlaps the infero-septal recess of the subaortic outflow tract, permitting the atrioventricular conduction axis to transition directly to the crest of the muscular ventricular septum. The compact atrioventricular node is formed at the apex of the pyramid by union of its inferior extensions, which represent the slow pathway, with the septal components formed in the buttress of the atrial septum, thus providing the fast pathway., Conclusions: To understand its various implications in current cardiological catheter interventions, the triangle of Koch must be considered in conjunction with the inferior pyramidal space and the infero-septal recess. It is better to consider the overall region in terms of a pyramidal area of interest., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2022. For permissions, please email: journals.permissions@oup.com.)
- Published
- 2022
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14. Miniseries 1-Part II: the comparative anatomy of the atrioventricular conduction axis.
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Macías Y, de Almeida MC, Tretter JT, Anderson RH, Spicer DE, Mohun TJ, Sánchez-Quintana D, Farré J, and Back Sternick E
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- Anatomy, Comparative, Animals, Aortic Valve, Cattle, Dogs, Heart Atria, Humans, Mammals, Mice, Swine, Heart Conduction System anatomy & histology, Ventricular Septum
- Abstract
Aims: The arrangement of the conduction axis is markedly different in various mammalian species. Knowledge of such variation may serve to question the validity of using animals as prospective models for design of systems for clinical use., Methods and Results: We compared the arrangement of the atrioventricular conduction axis in human, murine, canine, porcine, and bovine hearts, examining serially sectioned datasets from 20 human, 16 murine, 3 porcine, 5 canine, and 1 bovine hearts. We also analysed computed tomographic datasets obtained from bovines and one human heart. Unlike the situation in the human heart, there is no formation of an atrioventricular fibrous membranous septum in the murine, canine, porcine, nor bovine hearts. Canine, porcine, and bovine hearts also lack an infero-septal recess, when defined as a fibrous plate supporting the buttress of the atrial septum. In these species, half of the non-coronary leaflet is directly opposed to the ventricular septal surface., Conclusion: There is a long right-sided non-branching component of the axis, which skirts the attachment of the non-coronary sinus of the aortic root. In the bovine heart, moreover, the left bundle branch usually extends intramyocardially as a solitary tape before surfacing and ramifying on the left ventricular septal surface. The difference in the atrioventricular conduction axis between species may influence the anatomical substrates for atrioventricular re-entry tachycardia, as well as providing inferences for assessing the risks of transcatheter implantation of the aortic valve. Further studies are now needed to assess these possibilities., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2022. For permissions, please email: journals.permissions@oup.com.)
- Published
- 2022
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15. ENCOMIUM to Professor Hein J.J. Wellens: a stellar and comprehensive cardiologist.
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Farré J, Anderson RH, Sánchez-Quintana D, and Back Sternick E
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- Electrocardiography, Humans, Cardiologists
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- 2022
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16. Miniseries 1-Part I: the Development of the atrioventricular conduction axis.
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Hikspoors JPJM, Macías Y, Tretter JT, Anderson RH, Lamers WH, Mohun TJ, Sánchez-Quintana D, Farré J, and Back Sternick E
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- Bundle of His, Heart Atria, Heart Ventricles, Humans, Atrioventricular Node, Heart Conduction System
- Abstract
Despite years of research, many details of the formation of the atrioventricular conduction axis remain uncertain. In this study, we aimed to clarify the situation. We studied three-dimensional reconstructions of serial histological sections and episcopic datasets of human embryos, supplementing these findings with assessment of material housed at the Human Developmental Biological Resource. We also examined serially sectioned human foetal hearts between 10 and 30 weeks of gestation. The conduction axis originates from the primary interventricular ring, which is initially at right angles to the plane of the atrioventricular canal, with which it co-localizes in the lesser curvature of the heart loop. With rightward expansion of the atrioventricular canal, the primary ring bends rightward, encircling the newly forming right atrioventricular junction. Subsequent to remodelling of the outflow tract, part of the primary ring remains localized on the crest of the muscular ventricular septum. By 7 weeks, its atrioventricular part has extended perpendicular to the septal parts. The atrioventricular node is formed at the inferior transition between the ventricular and atrial parts, with the transition itself marking the site of the penetrating atrioventricular bundle. Only subsequent to muscularization of the true second atrial septum does it become possible to recognize the definitive node. The conversion of the developmental arrangement into the definitive situation as seen postnatally requires additional remodelling in the first month of foetal development, concomitant with formation of the inferior pyramidal space and the infero-septal recess of the subaortic outflow tract., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2022. For permissions, please email: journals.permissions@oup.com.)
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- 2022
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17. The Continuing Surprises Regarding So-Called Mahaim Conduction.
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Back Sternick E and Anderson RH
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- Heart Rate, Humans, Heart Conduction System
- Abstract
Competing Interests: Funding Support and Author Disclosures The authors have reported that they have no relationships relevant to the contents of this paper to disclose.
- Published
- 2021
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18. Esophago-pericardial fistula after catheter ablation of atrial fibrillation: A review.
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Back Sternick E, Soares Correa F, Ferber Drumond L, Albuquerque Carreiro R, Alves Rabelo M, and de Tarso Vaz de Oliveira P
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- Heart Atria diagnostic imaging, Heart Atria surgery, Humans, Atrial Fibrillation diagnosis, Atrial Fibrillation surgery, Catheter Ablation adverse effects, Esophageal Fistula diagnostic imaging, Esophageal Fistula etiology
- Abstract
Introduction: Much have been reported about esophago-left atrium fistula. However, esophago-mediastinal fistula, not reaching the left atrium, has not been studied as a different clinical entity, with different management., Methods and Results: We review and discuss the literature of esophago-mediastinum fistula after catheter ablation for atrial fibrillation with emphasis on the following points: the timing of its occurrence after ablation; the mechanisms and localization of the fistula; and its natural history., Conclusion: We showed that esophageal stenting was associated with a better outcome in patients with esophagus-mediastinal fistula, introduced the concept of left atrial wall weakening during ablation, and suggest a possible role of contact force use in fistula formation., (© 2020 Wiley Periodicals LLC.)
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- 2020
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19. Encomium to Hein JJ Wellens (as he chose to be known).
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Back Sternick E
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- COVID-19, Humans, Male, SARS-CoV-2, Electrocardiography
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- 2020
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20. Sudden death associated with a novel H401Q PRKAG2 mutation.
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Albernaz Siqueira MH, Honorato-Sampaio K, Monteiro Dias G, Wilson JR, Yavari A, Brasileiro Filho G, and Back Sternick E
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- Cardiomegaly, Death, Sudden, Humans, Mutation, AMP-Activated Protein Kinases genetics, Wolff-Parkinson-White Syndrome
- Published
- 2020
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21. Two tachycardias, wide and narrow-more than a coincidence?
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Back Sternick E, Bagchi A, Lokhandwala Y, and Wellens HJ
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- Catheter Ablation, Defibrillators, Implantable, Electric Countershock instrumentation, Electrocardiography, Ambulatory, Electrophysiologic Techniques, Cardiac, Heart Conduction System surgery, Humans, Male, Middle Aged, Tachycardia, Ventricular diagnosis, Tachycardia, Ventricular therapy, Time Factors, Treatment Outcome, Action Potentials, Heart Conduction System physiopathology, Heart Rate, Tachycardia, Ventricular physiopathology
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- 2020
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22. Re-evaluation of the structure of the atrioventricular node and its connections with the atrium.
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Anderson RH, Sanchez-Quintana D, Mori S, Cabrera JA, and Back Sternick E
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- Heart Rate, Humans, Myocardium, Atrioventricular Node, Heart Atria
- Abstract
Aims: The anatomic substrates for atrioventricular nodal re-entry remain enigmatic, but require knowledge of the normal arrangement of the inputs and exist from the atrioventricular node. This knowledge is crucial to understand the phenomenon of atrioventricular nodal re-entry., Methods and Results: We studied 20 human hearts with serial sections covering the entirety of the triangle of Koch and the cavotricuspid isthmus. We determined the location of the atrioventricular conduction axis and the connections between the specialized cardiomyocytes of the conduction axis and the adjacent working atrial myocardium. The atrioventricular node was found at the apex of the triangle of Koch, with entry of the conduction axis to the central fibrous body providing the criterion for distinction of the bundle of His. We found marked variation in the inferior extensions of the node, the shape of the node, the presence or absence of a connecting bridge within the myocardium of the cavotricuspid isthmus, the connections between the compact node and the myocardium of the atrial septum, the presence of transitional cardiomyocytes, and the 'last' connection between the working atrial myocardium and the conduction axis before it became the bundle of His., Conclusion: The observed variations of the inferior extensions, combined with the arrangement of the 'last' connections between the atrial myocardium and the conduction axis prior to its insulation as the bundle of His, provide compelling evidence to support the concept for atrioventricular nodal re-entry as advanced by Katritsis and Becker., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2020. For permissions, please email: journals.permissions@oup.com.)
- Published
- 2020
- Full Text
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23. Frequent palpitations during chemotherapy.
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Cunha Guerra M, Soares Correa F, and Back Sternick E
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- Aged, Catheter Ablation, Electrocardiography, Female, Humans, Arrhythmias, Cardiac etiology, Arrhythmias, Cardiac surgery, Breast Neoplasms drug therapy, Catheters, Indwelling adverse effects
- Published
- 2019
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24. Unusual variants of pre-excitation: From anatomy to ablation: Part III-Clinical presentation, electrophysiologic characteristics, when and how to ablate nodoventricular, nodofascicular, fasciculoventricular pathways, along with considerations of permanent junctional reciprocating tachycardia.
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Soares Correa F, Lokhandwala Y, Sánchez-Quintana D, Mori S, Anderson RH, Wellens HJJ, and Back Sternick E
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- Accessory Atrioventricular Bundle physiopathology, Electrocardiography, Electrophysiologic Techniques, Cardiac, Humans, Pre-Excitation, Mahaim-Type diagnosis, Pre-Excitation, Mahaim-Type physiopathology, Predictive Value of Tests, Tachycardia, Reciprocating diagnosis, Tachycardia, Reciprocating physiopathology, Treatment Outcome, Accessory Atrioventricular Bundle surgery, Action Potentials, Catheter Ablation adverse effects, Heart Rate, Pre-Excitation, Mahaim-Type surgery, Tachycardia, Reciprocating surgery
- Abstract
The recognition of the presence, location, and properties of unusual accessory pathways for atrioventricular conduction is an exciting, but frequently a difficult, challenge for the clinical cardiac arrhythmologist. In this third part of our series of reviews, we discuss the different steps required to come to the correct diagnosis and management decision in patients with nodofascicular, nodoventricular, and fasciculo-ventricular pathways. We also discuss the concealed accessory atrioventricular pathways with the properties of decremental retrograde conduction that are associated with the so-called permanent form of junctional reciprocating tachycardia. Careful analysis of the 12-lead electrocardiogram during sinus rhythm and tachycardias should always precede the investigation in the catheterization room. When using programmed electrical stimulation of the heart from different intracardiac locations, combined with activation mapping, it should be possible to localize both the proximal and distal ends of the accessory connections. This, in turn, should then permit the determination of their electrophysiologic properties, providing the answer to the question "are they incorporated in a tachycardia circuit?". It is this information that is essential for decision-making with regard to the need for catheter ablation, and if necessary, its appropriate site., (© 2019 Wiley Periodicals, Inc.)
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- 2019
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25. Part II-Clinical presentation, electrophysiologic characteristics, and when and how to ablate atriofascicular pathways and long and short decrementally conducting accessory pathways.
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Soares Correa F, Lokhandwala Y, Cruz Filho F, Sánchez-Quintana D, Mori S, Anderson RH, Wellens HJJ, and Back Sternick E
- Subjects
- Accessory Atrioventricular Bundle physiopathology, Electrocardiography, Electrophysiologic Techniques, Cardiac, Humans, Pre-Excitation, Mahaim-Type diagnosis, Pre-Excitation, Mahaim-Type physiopathology, Predictive Value of Tests, Treatment Outcome, Accessory Atrioventricular Bundle surgery, Action Potentials, Catheter Ablation adverse effects, Heart Rate, Pre-Excitation, Mahaim-Type surgery
- Abstract
Recognition of the presence, location, and properties of unusual accessory pathways for atrioventricular conduction is an exciting, frequently difficult, challenge for the clinical cardiac arrhythmologist. In this second part of our series of reviews relative to this topic, we discuss the steps required to achieve the correct diagnosis and appropriate management in patients with the so-called "Mahaim" variants of pre-excitation. We indicate that, nowadays, it is recognized that these abnormal rhythms are manifest because of the presence of atriofascicular pathways. These anatomical substrates, however, need to be distinguished from the other long and short accessory pathways which produce decremental atrioventricular conduction. The atriofascicular pathways, along with the long decrementally conducting pathways, have their atrial components located within the vestibule of the tricuspid valve. The short decremental pathways, in contrast, can originate in the vestibules of either the mitral or tricuspid valves. As a starting point, careful analysis of the 12-lead electrocardiogram, taken during both sinus rhythm and tachycardias, should precede any investigation in the catheterization room. When assessing the patient in the electrophysiological laboratory, the use of programmed electrical stimulation from different intracardiac locations, combined with entrainment technique and activation mapping, should permit the establishment of the properties of the accessory pathways, and localization of its proximal and distal ends. This should provide the answer to the question "is the pathway incorporated into the circuit underlying the clinical tachycardia". That information is essential for decision-making with regard to need, and localization of the proper site, for catheter ablation., (© 2019 Wiley Periodicals, Inc.)
- Published
- 2019
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26. When and how does a single ventricular premature beat initiate and terminate supraventricular tachycardia?
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Cunha Guerra M, Lokhandwala Y, Oyarzun R, Vyas A, Soares Correa F, Cruz Filho FE, J Wellens H, and Back Sternick E
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- Adult, Cross-Sectional Studies, Diagnosis, Differential, Female, Humans, Male, Middle Aged, Prospective Studies, Electrocardiography, Tachycardia, Supraventricular etiology, Tachycardia, Supraventricular physiopathology, Ventricular Premature Complexes complications, Ventricular Premature Complexes physiopathology
- Abstract
Background: The differential diagnosis of a supraventricular tachycardia (SVT) is accomplished using a number of pacing maneuvers. The incidence and mechanism of a single ventricular premature beat (VPB) on initiation and termination of tachycardia were evaluated during programmed electrical stimulation (PES) of the heart in patients with the two most common regular SVTs: atrioventricular re-entrant tachycardia (AVNRT) and orthodromic atrioventricular tachycardia (AVRT)., Methods: Three hundred and thirty-seven consecutive patients aged above 18 years with an inducible sustained AVNRT or AVRT were prospectively enrolled. Patients with more than one tachyarrhythmia mechanism were excluded. Two hundred and seventeen patients (64.4%) had typical slow/fast AVNRT and 120 (35.6%) had an orthodromic AVRT using a rapidly conducting accessory pathway for V-A conduction. In this cross-sectional study, we specifically report the analysis of tachycardia induction and termination by a single VPB., Results: Tachycardia induction with a single VPB during sinus rhythm was seen in 7 of 120 AVRT and in only one of the 217 patients with AVNRT, (5.8% vs. 0.3%, p < 0.05). When a single VPB was delivered during basic ventricular pacing these values were 28% versus 4%, respectively, (p < 0.001). Termination of tachycardia by a single VPB was observed in nine (4.1%) patients with AVNRT and in 57 (47.5%) with AVRT (p < 0.001)., Conclusion: Initiation of SVT by a single VPB during sinus rhythm was uncommon and favored AVRT. Termination of SVT by a single VPB was commonly seen in AVRT but rarely in AVNRT. These findings can be of help when interpreting a noninvasive arrhythmia event recording., (© 2019 Wiley Periodicals, Inc.)
- Published
- 2019
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27. An asymptomatic teenager clears preparticipation evaluation. When enough is enough?
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Aleixo H, Gomes da Silva M, and Back Sternick E
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- Adolescent, Asymptomatic Diseases, Cardiomyopathy, Hypertrophic diagnostic imaging, Disease Progression, Electrocardiography, Humans, Magnetic Resonance Imaging, Male, Mass Screening, Athletes, Cardiomyopathy, Hypertrophic diagnosis
- Abstract
Competing Interests: Competing interests: None declared.
- Published
- 2019
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28. Atypical bypass tracts: can they be recognized during sinus rhythm?
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de Alencar Neto JN, Ramalho de Moraes SR, Back Sternick E, and Wellens HJJ
- Subjects
- Action Potentials, Adenosine administration & dosage, Animals, Humans, Pre-Excitation Syndromes physiopathology, Pre-Excitation, Mahaim-Type physiopathology, Predictive Value of Tests, Accessory Atrioventricular Bundle, Electrocardiography, Heart Conduction System physiopathology, Heart Rate, Pre-Excitation Syndromes diagnosis, Pre-Excitation, Mahaim-Type diagnosis
- Abstract
Atypical bypass tracts or variants of ventricular pre-excitation are rare anatomic structures often with rate-dependent slowing in conduction, called decremental conduction. During sinus rhythm, electrocardiographic recognition of those structures may be difficult because unlike in the Wolff-Parkinson-White syndrome where usually overt ventricular pre-excitation is present, the electrocardiogram (ECG) often shows a subtle pre-excitation pattern because of less contribution to ventricular activation over the slow and decrementally conducting bypass. Following the structure described by Ivan Mahaim and Benatt corresponding to a fasciculoventricular pathway, several other new variants of ventricular pre-excitation were reported. In this review, we aim to discuss the electrocardiographic pattern of the different subtypes of variants of ventricular pre-excitation, including the atriofascicular pathway, long and short decrementally conducting atrioventricular pathways, fasciculoventricular pathway, the atrio-Hisian bypass tract, and nodoventricular and nodofascicular fibres. Emphasis will be on the ECG findings during sinus rhythm.
- Published
- 2019
- Full Text
- View/download PDF
29. Split P waves and intra-atrial conduction delay: Authors' reply.
- Author
-
Back Sternick E, Barros Pena JL, N Santos PP, and Yavari A
- Subjects
- Heart Conduction System, Humans, Atrial Fibrillation
- Published
- 2019
- Full Text
- View/download PDF
30. Reappraisal and new observations on atrial tachycardia ablated from the non-coronary aortic sinus of Valsalva: authors' reply.
- Author
-
Bohora S, Lokhandwala Y, Back Sternick E, Anderson RH, and Wellens HJJ
- Subjects
- Humans, Tachycardia, Ectopic Atrial, Sinus of Valsalva, Tachycardia, Supraventricular
- Published
- 2018
- Full Text
- View/download PDF
31. Atrial Pathology Findings in a Patient With PRKAG2 Cardiomyopathy and Persistent Atrial Fibrillation.
- Author
-
Back Sternick E, de Almeida Araújo S, Ribeiro da Silva Camargos E, and Brasileiro Filho G
- Subjects
- Atrioventricular Block pathology, Biopsy, Humans, Male, Middle Aged, AMP-Activated Protein Kinases genetics, Atrial Fibrillation etiology, Atrial Fibrillation pathology, Atrioventricular Block therapy, Glycogen Storage Disease Type IIb complications, Glycogen Storage Disease Type IIb genetics, Pacemaker, Artificial
- Published
- 2016
- Full Text
- View/download PDF
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