Your search keyword '"O. Bernus"' showing total 34 results

1. Electrophysiological characterization of a 19-years-old male marathon runner suffering a sudden cardiac death

Author

N. Pallares Lupon, E. Surget, M.E. Martinez, E. Renard, B. Guillot, M. Constantin, J. Rogier, M. Hocini, M. Haissaguerre, O. Bernus, and R. Walton

Subjects

Cardiology and Cardiovascular Medicine

Published

2023

2. Origin of ventricular fibrillation triggers in a model of localized repolarization heterogeneity.

Author

Renard E, Haïssaguerre M, Bear LR, and Bernus O

Abstract

Background: Heterogeneities in ventricular repolarization contribute significantly to the genesis of ventricular fibrillation (VF). Although clinical arrhythmias are spontaneously triggered by premature ventricular complexes, these triggers are difficult to document and little is known about their site of origin., Objectives: The purpose of this study was to characterize spontaneous VF initiation in an experimental model of repolarization heterogeneity and to identify the origin of triggers in relation to the spatial dispersion of repolarization., Methods: Spatially limited repolarization heterogeneity was created in isolated perfused porcine right ventricles (N = 16) by local administration of pinacidil (20 μM) in a terminal branch of the right coronary artery. High-resolution optical mapping and pseudo-electrocardiography were performed in control conditions and after pinacidil perfusion., Results: No arrhythmia occurred at baseline, but 74 VF episodes were observed in 13 hearts (82%) after pinacidil perfusion and were most often initiated by a ventricular trigger with a short coupling interval (297 ± 66 ms). Sixteen VF initiations were optically mapped in 4 hearts. Mapping showed triggers originating in all cases from the border zone between altered and normal repolarization areas where local action potential duration and repolarization time gradients were steep (15.9 and 15.8 ms/mm vs 1.5 and 3.0 ms/mm in nontrigger sites). Optical action potential traces were compatible with a phase 2 reexcitation mechanism. The subsequent VF cycles were driven by activities located in the same region., Conclusion: This model of localized repolarization heterogeneity is able to produce spontaneous VF initiation. Our study demonstrates that VF triggers originate consistently from the border zone of repolarization dispersion., Competing Interests: Disclosures The authors have no conflict of interest to declare., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

3. The Ithildin library for efficient numerical solution of anisotropic reaction-diffusion problems in excitable media.

Author

Kabus D, Cloet M, Zemlin C, Bernus O, and Dierckx H

Subjects

Anisotropy, Humans, Software, Diffusion, Models, Cardiovascular, Programming Languages, Computer Simulation

Abstract

Ithildin is an open-source library and framework for efficient parallelized simulations of excitable media, written in the C++ programming language. It uses parallelization on multiple CPU processors via the message passing interface (MPI). We demonstrate the library's versatility through a series of simulations in the context of the monodomain description of cardiac electrophysiology, including the S1S2 protocol, spiral break-up, and spiral waves in ventricular geometry. Our work demonstrates the power of Ithildin as a tool for studying complex wave patterns in cardiac tissue and its potential to inform future experimental and theoretical studies. We publish our full code with this paper in the name of open science., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Kabus et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

4. Electrophysiological Characteristics Associated With Spontaneous Termination of Ventricular Fibrillation.

Author

Monaco C, Cheniti G, Benali K, Duchateau J, Vlachos K, Sacher F, Ploux S, Vigmond E, Bernus O, and Haïssaguerre M

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

2024

5. Distinct Substrates of Idiopathic Ventricular Fibrillation Revealed by Arrhythmia Characteristics on Implantable Cardioverter-Defibrillator.

Author

Haïssaguerre M, Sellal JM, Benali K, de Becker B, Defaye P, Pascale P, Martins R, Mabo P, Xhaet O, Extramiana F, Surget E, Lavergne T, Marijon E, Adragao P, Carvalho MS, Milliez PU, Laredo M, Gandjbakhch E, Giustetto C, Gaita F, Tilz R, Jesel-Morel L, Steinfurt J, Arentz T, Knecht S, Duytschaever M, Roten L, Reichlin T, Fatemi M, Mansourati J, Kouakam C, Bessière F, Chevalier P, Tadros R, Macle L, Gallego F, Hadjis A, Sacher F, Pereira D, Hourdain J, Deharo JC, Eschalier R, Massoulié G, Maury P, Latcu DG, Anselme F, Duchateau J, Tixier R, Nademanee K, Nogami A, de Groot N, Vigmond E, Bernus O, Strik M, Bordachar P, Cathala A, Bouteiller X, Dubois R, and Ploux S

Subjects

Humans, Female, Male, Adult, Middle Aged, Recurrence, Cardiomyopathies physiopathology, Cardiomyopathies therapy, Cardiomyopathies complications, Purkinje Fibers physiopathology, Electrocardiography, Defibrillators, Implantable, Ventricular Fibrillation therapy, Ventricular Fibrillation physiopathology

Abstract

Background: Idiopathic ventricular fibrillation (IVF) can be associated with undetected distinct conditions such as microstructural cardiomyopathic alterations (MiCM) or Purkinje (Purk) activities with structurally normal hearts., Objectives: This study sought to evaluate the characteristics of recurrent VF recorded on implantable defibrillator electrograms, associated with these substrates., Methods: This was a multicenter collaboration study. At 32 centers, we selected patients with an initial diagnosis of IVF and recurrent arrhythmia at follow-up without antiarrhythmic drugs, in whom mapping demonstrated Purk or MiCM substrate. We analyzed variables related to previous ectopy, sinus rate preceding VF, trigger, and initial VF cycle lengths. Logistic regression with cross validation was used to evaluate the performance of criteria to discriminate Purk or MiCM substrates., Results: Among 95 patients (35 women, age 35 ± 11 years) meeting the inclusion criteria, IVF was associated with MiCM in 41 and Purk in 54 patients. A total of 117 arrhythmia recurrences including 91% VF were recorded on defibrillator. Three variables were mostly discriminant. Sinus tachycardia (≤570 ms) was more frequent in MiCM (35.9% vs 13.4%, P = 0.014) whereas short-coupled (<350 ms) triggers were most frequent in Purk-related VF (95.5% vs 23.1%, P = 0.001), which also had shorter VFCLs (182 ± 15 ms vs 215 ± 24 ms, P < 0.001).The multivariable combination provided the highest prediction (accuracy = 0.93 ± 0.05, range 0.833-1.000), discriminating 81% of IVF substrates with a high probability (>80%). Ectopy were inconsistently present before VF., Conclusions: Characteristics of arrhythmia recurrences on implantable cardioverter- defibrillator provide phenotypic markers of the distinct and hidden substrates underlying IVF. These findings have significant clinical and genetic implications., Competing Interests: Funding Support and Author Disclosures Dr Haissaguerre has received grant support from Biosense Webster. Dr Marijon has received grant support and consulting fees from Medtronic, Boston Scientific, Abbott, Microport, Biotronik, and Zoll. Pr Gandjbakhch has received lecture fees from Biotronik; and consulting fees from Medtronic, Microport, and Abbott. Dr Tilz is a consultant for Boston Scientific, Biotronik, Biosense Webster, and Abbott Medical; has received speaker honoraria from Boston Scientific, Biotronik, Biosense Webster, Abbott Medical, and Lifetech; and has received research grants from Abbott, Biosense Webster, and Lifetech. Dr Roten has received research grants from Medtronic, the Swiss National Foundation, the Swiss Heart Foundation, the Immanuel and Ilse Straub Foundation, and the Sitem Insel Support Fund, all for work outside the submitted study; and has received speaker/consulting honoraria from Abbott and Medtronic. Dr Reichlin has receivedresearch grants from the Swiss National Science Foundation, the Swiss Heart Foundation, the Sitem Insel support funds, Biotronik, Boston-Scientific, and Medtronic, all for work outside the submitted study; and has received speaker/consulting honoraria or travel support from Abbott/SJM, Biosense-Webster, Biotronik, Boston-Scientific, and Medtronic, all for work outside the submitted study. Support for his institution’s fellowship program from Abbott/SJM, Biosense-Webster, Biotronik, Boston-Scientific, and Medtronic for work outside the submitted study. Dr Sacher has receivedspeaking honorarium from Abbott, Boston Scientific, and Biosense Webster; and equity from InHeart. Dr Nogami has received lecture fees from Abbott; and endowments from Medtronic. Dr Massoullié has received lecture fees from Boston Scientific, Biosense Webster, and Abbot. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2024 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published

2024

6. Distinct Electrogram Features and Ventricular Arrhythmia Induction Modes Between Repolarization and Conduction Heterogeneities.

Author

Renard E, Surget E, Walton RD, Michel C, Benoist D, Dubes V, Guillot B, Martinez ME, Hocini M, Haïssaguerre M, and Bernus O

Subjects

Animals, Swine, Electrocardiography, Ventricular Fibrillation physiopathology, Electrophysiologic Techniques, Cardiac, Flecainide pharmacology, Heart Ventricles physiopathology, Heart Ventricles diagnostic imaging, Arrhythmias, Cardiac physiopathology, Anti-Arrhythmia Agents pharmacology, Heart Conduction System physiopathology

Abstract

Background: Recent clinical studies have indicated the presence of localized electrical abnormalities in idiopathic ventricular fibrillation and J-wave syndrome patients., Objectives: This study aims to characterize the specific electrical signatures of localized repolarization and conduction heterogeneities and their respective role in vulnerability to arrhythmias., Methods: Optical mapping was performed in porcine right ventricles with local: 1) repolarization shortening; 2) conduction slowing; or 3) structural heterogeneity induced by locally perfusing: 1) pinacidil (20 μmol/L, n = 13); or 2) flecainide (2 μmol/L, n = 13) via an epicardial catheter; or 3) by local epicardial tissue destruction (9 radiofrequency lesions n = 12). Electrograms were recorded (n = 5 in each group) and spontaneous and induced arrhythmias were quantified and optically mapped., Results: Electrograms were normal in (1) but showed local fragmentation in 40% of preparations in (2) with greater effects observed at high pacing frequencies dependent on the wavefront direction. In (3), the structural substrate alone increased the width and number of peaks in the electrograms, and addition of flecainide induced pronounced fragmentation (≥3 peaks and ≥70 ms) in all cases. Occurrence of spontaneous arrhythmias was significantly increased in (1) and (2) (P < 0.0001 and 0.05, respectively, vs baseline) and were triggered by ectopies. Vulnerability to arrhythmias at high pacing frequencies (≥2 Hz) was the lowest in (1) and greatest in (2)., Conclusions: Microstructural substrates have the most pronounced impact on electrograms, especially when combined with sodium channel blockers, whereas local action potential duration shortening does not lead to electrogram fragmentation even though it is associated with the highest prevalence of spontaneous arrhythmias., Competing Interests: Funding Support and Author Disclosures This study received financial support from the French Government as part of the “Investments of the Future” program managed by the National Research Agency (ANR-10-IAHU04-LIRYC). It was funded by the Leducq-Foundation (RHYTHM network, 16CVD02), the Fondation Coeur et Artères (FC17T2), and the European Research Council (ERC-2021-ADG 101054717). All authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

7. Open-source software for respiratory rate estimation using single-lead electrocardiograms.

Author

Roberts JD Jr, Walton RD, Loyer V, Bernus O, and Kulkarni K

Subjects

Adult, Humans, Animals, Sheep, Software, Algorithms, Electrocardiography, Signal Processing, Computer-Assisted, Respiratory Rate, Respiration

Abstract

Respiratory rate (RR) is a critical vital sign used to assess pulmonary function. Currently, RR estimating instrumentation is specialized and bulky, therefore unsuitable for remote health monitoring. Previously, RR was estimated using proprietary software that extract surface electrocardiogram (ECG) waveform features obtained at several thoracic locations. However, developing a non-proprietary method that uses minimal ECG leads, generally available from mobile cardiac monitors is highly desirable. Here, we introduce an open-source and well-documented Python-based algorithm that estimates RR requiring only single-stream ECG signals. The algorithm was first developed using ECGs from awake, spontaneously breathing adult human subjects. The algorithm-estimated RRs exhibited close linear correlation to the subjects' true RR values demonstrating an R 2 of 0.9092 and root mean square error of 2.2 bpm. The algorithm robustness was then tested using ECGs generated by the ischemic hearts of anesthetized, mechanically ventilated sheep. Although the ECG waveforms during ischemia exhibited severe morphologic changes, the algorithm-determined RRs exhibited high fidelity with a resolution of 1 bpm, an absolute error of 0.07 ± 0.07 bpm, and a relative error of 0.67 ± 0.64%. This optimized Python-based RR estimation technique will likely be widely adapted for remote lung function assessment in patients with cardiopulmonary disease., (© 2024. The Author(s).)

Published

2024

8. Cardiac structure discontinuities revealed by ex-vivo microstructural characterization. A focus on the basal inferoseptal left ventricle region.

Author

Cabanis P, Magat J, Rodriguez-Padilla J, Ramlugun G, Yon M, Bihan-Poudec Y, Pallares-Lupon N, Vaillant F, Pasdois P, Jais P, Dos-Santos P, Constantin M, Benoist D, Pourtau L, Dubes V, Rogier J, Labrousse L, Haissaguerre M, Bernus O, Quesson B, Walton R, Duchateau J, Vigmond E, and Ozenne V

Subjects

Humans, Animals, Sheep, Contrast Media, X-Ray Microtomography, Predictive Value of Tests, Gadolinium, Myocytes, Cardiac physiology, Arrhythmias, Cardiac, Mammals, Heart Ventricles diagnostic imaging, Diffusion Tensor Imaging methods

Abstract

Background: While the microstructure of the left ventricle (LV) has been largely described, only a few studies investigated the right ventricular insertion point (RVIP). It was accepted that the aggregate cardiomyocytes organization was much more complex due to the intersection of the ventricular cavities but a precise structural characterization in the human heart was lacking even if clinical phenotypes related to right ventricular wall stress or arrhythmia were observed in this region., Methods: MRI-derived anatomical imaging (150 µm 3 ) and diffusion tensor imaging (600 µm 3 ) were performed in large mammalian whole hearts (human: N = 5, sheep: N = 5). Fractional anisotropy, aggregate cardiomyocytes orientations and tractography were compared within both species. Aggregate cardiomyocytes orientation on one ex-vivo sheep whole heart was then computed using structure tensor imaging (STI) from 21 µm isotropic acquisition acquired with micro computed tomography (MicroCT) imaging. Macroscopic and histological examination were performed. Lastly, experimental cardiomyocytes orientation distribution was then compared to the usual rule-based model using electrophysiological (EP) modeling. Electrical activity was modeled with the monodomain formulation., Results: The RVIP at the level of the inferior ventricular septum presented a unique arrangement of aggregate cardiomyocytes. An abrupt, mid-myocardial change in cardiomyocytes orientation was observed, delimiting a triangle-shaped region, present in both sheep and human hearts. FA's histogram distribution (mean ± std: 0.29 ± 0.06) of the identified region as well as the main dimension (22.2 mm ± 5.6 mm) was found homogeneous across samples and species. Averaged volume is 0.34 cm 3  ± 0.15 cm 3 . Both local activation time (LAT) and morphology of pseudo-ECGs were strongly impacted with delayed LAT and change in peak-to-peak amplitude in the simulated wedge model., Conclusion: The study was the first to describe the 3D cardiomyocytes architecture of the basal inferoseptal left ventricle region in human hearts and identify the presence of a well-organized aggregate cardiomyocytes arrangement and cardiac structural discontinuities. The results might offer a better appreciation of clinical phenotypes like RVIP-late gadolinium enhancement or uncommon idiopathic ventricular arrhythmias (VA) originating from this region., (© 2023. The Author(s).)

Published

2023

9. Reply: The Mechanism of Brugada Syndrome: Is it Induced Only by Conduction Disturbance?

Author

Renard E, Haïssaguerre M, and Bernus O

Subjects

Humans, Heart Conduction System, Cardiac Conduction System Disease, Brugada Syndrome diagnosis

Published

2023

10. Functional Epicardial Conduction Disturbances Due to a SCN5A Variant Associated With Brugada Syndrome.

Author

Renard E, Walton RD, Benoist D, Brette F, Bru-Mercier G, Chaigne S, Charron S, Constantin M, Douard M, Dubes V, Guillot B, Hof T, Magat J, Martinez ME, Michel C, Pallares-Lupon N, Pasdois P, Récalde A, Vaillant F, Sacher F, Labrousse L, Rogier J, Kyndt F, Baudic M, Schott JJ, Barc J, Probst V, Sarlandie M, Marionneau C, Ashton JL, Hocini M, Haïssaguerre M, and Bernus O

Subjects

Male, Adolescent, Humans, HEK293 Cells, Electrocardiography, Cardiac Conduction System Disease, Death, Sudden, Cardiac, Connexins, Brugada Syndrome

Abstract

Background: Brugada syndrome is a significant cause of sudden cardiac death (SCD), but the underlying mechanisms remain hypothetical., Objectives: This study aimed to elucidate this knowledge gap through detailed ex vivo human heart studies., Methods: A heart was obtained from a 15-year-old adolescent boy with normal electrocardiogram who experienced SCD. Postmortem genotyping was performed, and clinical examinations were done on first-degree relatives. The right ventricle was optically mapped, followed by high-field magnetic resonance imaging and histology. Connexin-43 and Na V 1.5 were localized by immunofluorescence, and RNA and protein expression levels were studied. HEK-293 cell surface biotinylation assays were performed to examine Na V 1.5 trafficking., Results: A Brugada-related SCD diagnosis was established for the donor because of a SCN5A Brugada-related variant (p.D356N) inherited from his mother, together with a concomitant NKX2.5 variant of unknown significance. Optical mapping demonstrated a localized epicardial region of impaired conduction near the outflow tract, in the absence of repolarization alterations and microstructural defects, leading to conduction blocks and figure-of-8 patterns. Na V 1.5 and connexin-43 localizations were normal in this region, consistent with the finding that the p.D356N variant does not affect the trafficking, nor the expression of Na V 1.5. Trends of decreased Na V 1.5, connexin-43, and desmoglein-2 protein levels were noted; however, the RT-qPCR results suggested that the NKX2-5 variant was unlikely to be involved., Conclusions: This study demonstrates for the first time that SCD associated with a Brugada-SCN5A variant can be caused by localized functionally, not structurally, impaired conduction., Competing Interests: Funding Support and Author Disclosures This work received financial support from the French Government as part of the “Investments of the Future” program managed by the National Research Agency (ANR-10-IAHU04-LIRYC), the Leducq-Foundation (RHYTHM network, 16CVD02), and the Fondation Coeur et Artères (FC17T2). Dr Barc is supported by the ANR JCJC LEARN (R21006NN, RPV21014NNA). Dr Schott is supported by IRP-, an I-SITE NExT health and engineering initiative (Ecole Centrale & Nantes University) and by the IRP- GAINES funded by INSERM and CNRS. Dr Marionneau is supported by the ANR-16-CE92-0013-01 and the National Institutes of Health (R01-HL148803). All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

11. Inducibility of Short-Coupled Purkinje Ectopy by Pharmacological Tests in Patients With Spontaneous Short-Coupled Idiopathic Ventricular Fibrillation.

Author

Haissaguerre M, Duchateau J, Laredo M, Lavergne T, Winum PF, Cheniti G, Waintraub X, Samson S, Surget E, Tixier R, Sacher F, Marijon E, Bernus O, and Gandjbakhch E

Subjects

Humans, Ventricular Fibrillation, Purkinje Fibers, Electrocardiography, Ventricular Premature Complexes diagnosis, Ventricular Premature Complexes drug therapy, Catheter Ablation

Abstract

Competing Interests: Disclosures None.

Published

2023

12. Image-Based Tools and Analysis for Human RVOT/RV Structures.

Author

Trew ML, Sands GB, Yang Z, Ashton JL, Vigneshwaran V, Walton RD, Bernus O, and Smaill BH

Subjects

Humans, Myocardium, Arrhythmias, Cardiac, Imaging, Three-Dimensional, Heart Ventricles, Heart

Abstract

The right-ventricular (RV) outflow tract (RVOT) and the transition to the RV free wall are recognized sources of arrhythmia in human hearts. However, we do not fully understand myocardial tissue structures in this region. Human heart tissue was processed for optical clarity, labelled with wheat-germ agglutin (WGA) and anti-Cx43, and imaged on a custom-built line scanning confocal microscope. The 3D images were analyzed for myocyte gross structures and cell morphology. There were regions of high organization as well as rapid changes to more heterogeneous regions. Preliminary cell segmentations were used to estimate cell morphology. Observed RVOT/RV structure is consistent with known arrhythmic substrates.Clinical Relevance- New views of human tissue structure enable clearer clinical understanding of arrhythmogenic activation pathways and targets for invasive treatment such as RF ablation.

Published

2023

13. Can Stochastic Pacing Restore Heart Rate Variability in Diseased Hearts? An In-vivo Ovine Case Study.

Author

Kulkarni K, Pallares-Lupon N, Bernus O, and Walton RD

Subjects

Animals, Sheep, Heart Rate physiology, Action Potentials physiology, Arrhythmias, Cardiac, Heart physiology, Myocardial Infarction

Abstract

Heart rate variability (HRV) is an important clinical parameter that depicts the autonomic balance. Diminished HRV has been associated with diseased hearts and incorporating stochasticity in pacing has been investigated as a potential mechanism for restoring the altered autonomic balance and preventing cardiac arrhythmias. We studied the change in HRV with the development of chronic myocardial infarction (MI) in adult sheep (n=16). Next, we investigated the utility of stochastic pacing in modulating HRV in-vivo in both sham and MI hearts. The propensity of the heart to the development of cardiac alternans, a known precursor to tachyarrhythmias, was studied under three different pacing techniques, namely periodic pacing, stochastic pacing and constant diastolic interval (DI) pacing in one sham and one MI sheep. Autonomic balance was observed to be altered after 6 weeks of chronic MI. Increased heart rate, QTc interval, standard deviation of the R-R intervals and LF/HF ratio was observed in MI hearts. Stochastic pacing was found to be proarrhythmic and increased T-wave alternans burden was observed with increase in stochasticity. Maintaining a constant DI on every beat demonstrated reduced alternans levels compared to both periodic and stochastic pacing.Clinical Relevance-Our results demonstrate that precise control of the diastolic interval may be more beneficial in inhibiting arrhythmias than stochastic pacing.

Published

2023

14. Assessment of Nit-Occlud atrial septal defect occluder device healing process using micro-computed tomography imaging.

Author

Perdreau E, Jalal Z, Walton RD, Sigler M, Cochet H, Naulin J, Quesson B, Bernus O, and Thambo JB

Subjects

Female, Animals, Sheep, X-Ray Microtomography, Prosthesis Design, Treatment Outcome, Cardiac Catheterization methods, Heart Atria, Heart Septal Defects, Atrial, Septal Occluder Device

Abstract

After percutaneous implantation of a cardiac occluder, a complex healing process leads to the device coverage within several months. An incomplete device coverage increases the risk of device related complications such as thrombosis or endocarditis. We aimed to assess the device coverage process of atrial septal defect (ASD) occluders in a chronic sheep model using micro-computed tomography (micro-CT). After percutaneous creation of an ASD, 8 ewes were implanted with a 16-mm Nit-Occlud ASD-R occluder (PFM medical, Cologne, Germany) and were followed for 1 month (N = 3) and 3 months (N = 5). After heart explant, the device coverage was assessed using micro-CT (resolution of 41.7 μm) and was compared to histological analysis. The micro-CT image reconstruction was performed in 2D and 3D allowing measurement of the coverage thickness and surface for each device. Macroscopic assessment of devices showed that the coverage was complete for the left-side disk in all cases. Yet incomplete coverage of the right-side disk was observed in 5 of the 8 cases. 2D and 3D micro-CT analysis allowed an accurate evaluation of device coverage of each disk and was overall well correlated to histology sections. Surface calculation from micro-CT images of the 8 cases showed that the median surface of coverage was 93±8% for the left-side disk and 55±31% for the right-side disk. The assessment of tissue reactions, including endothelialisation, after implantation of an ASD occluder can rely on in vitro micro-CT analysis. The translation to clinical practice is challenging but the potential for individual follow-up is shown, to avoid thrombotic or infective complications., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Perdreau et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

15. Characterization of Experimentally Observed Complex Interplay between Pulse Duration, Electrical Field Strength, and Cell Orientation on Electroporation Outcome Using a Time-Dependent Nonlinear Numerical Model.

Author

Scuderi M, Dermol-Černe J, Batista Napotnik T, Chaigne S, Bernus O, Benoist D, Sigg DC, Rems L, and Miklavčič D

Subjects

Electroporation Therapies, Electricity, Cell Membrane Permeability, Nonlinear Dynamics, Electroporation methods

Abstract

Electroporation is a biophysical phenomenon involving an increase in cell membrane permeability to molecules after a high-pulsed electric field is applied to the tissue. Currently, electroporation is being developed for non-thermal ablation of cardiac tissue to treat arrhythmias. Cardiomyocytes have been shown to be more affected by electroporation when oriented with their long axis parallel to the applied electric field. However, recent studies demonstrate that the preferentially affected orientation depends on the pulse parameters. To gain better insight into the influence of cell orientation on electroporation with different pulse parameters, we developed a time-dependent nonlinear numerical model where we calculated the induced transmembrane voltage and pores creation in the membrane due to electroporation. The numerical results show that the onset of electroporation is observed at lower electric field strengths for cells oriented parallel to the electric field for pulse durations ≥10 µs, and cells oriented perpendicular for pulse durations ~100 ns. For pulses of ~1 µs duration, electroporation is not very sensitive to cell orientation. Interestingly, as the electric field strength increases beyond the onset of electroporation, perpendicular cells become more affected irrespective of pulse duration. The results obtained using the developed time-dependent nonlinear model are corroborated by in vitro experimental measurements. Our study will contribute to the process of further development and optimization of pulsed-field ablation and gene therapy in cardiac treatments.

Published

2023

16. Attenuation of stretch-induced arrhythmias following chemical ablation of Purkinje fibres, in isolated rabbit hearts.

Author

Hurley M, Walton R, Vigmond EJ, Haïssaguerre M, Bernus O, and White E

Abstract

Purkinje fibres (PFs) play an important role in some ventricular arrhythmias and acute ventricular stretch can evoke mechanically-induced arrhythmias. We tested whether Purkinje fibres, play a role in these arrhythmias. Pseudo-ECGs were recorded in isolated, Langendorff-perfused, rabbit hearts in which the left ventricular endocardial surface was also irrigated with Tyrode, via an indwelling catheter placed in the left ventricular lumen. The number and period of ectopic activations was measured during left ventricular lumen inflation via an indwelling fluid-filled balloon (500 μL added over 2 s and maintained for 15 s in total). Mechanically-induced arrhythmias occurred in 70% of balloon inflations: they were maximal in the first 5 s and ceased within 15 s. Brief, (10 s) irrigation of the left ventricular lumen with Lugol solution (IK/I 2 ), via the indwelling catheter, reduced inflation-induced ectopics by 98% ( p < 0.05). Ablation of endocardial PFs by Lugol was confirmed by Triphenyltetrazolium Chloride staining. Optical mapping revealed the left ventricular epicardial activation patterns of ectopics could have PF-mediated and focal sources. In silico modelling predicted ectopic sources originating in the endocardial region propagate to and through the Purkinje fibres network. Acute distention-induced ectopics are multi-focal, their attenuation by Lugol, their activation patterns and in silico modelling indicate a participation of Purkinje fibres in these arrhythmias., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Hurley, Walton, Vigmond, Haïssaguerre, Bernus and White.)

Published

2023

17. Inhibition of EPAC1 signaling pathway alters atrial electrophysiology and prevents atrial fibrillation.

Author

Guillot B, Boileve A, Walton R, Harfoush A, Conte C, Sainte-Marie Y, Charron S, Bernus O, Recalde A, Sallé L, Brette F, and Lezoualc'h F

Abstract

Introduction: Atrial fibrillation (AF) is the most common sustained cardiac arrhythmia and is associated with increased mortality and morbidity. The Exchange Protein directly Activated by cAMP (EPAC), has been implicated in pro-arrhythmic signaling pathways in the atria, but the underlying mechanisms remain unknown. Methods: In this study, we investigated the involvement of EPAC1 and EPAC2 isoforms in the genesis of AF in wild type (WT) mice and knockout (KO) mice for EPAC1 or EPAC2. We also employed EPAC pharmacological modulators to selectively activate EPAC proteins (8-CPT-AM; 10 μM), or inhibit either EPAC1 (AM-001; 20 μM) or EPAC2 (ESI-05; 25 μM). Transesophageal stimulation was used to characterize the induction of AF in vivo in mice. Optical mapping experiments were performed on isolated mouse atria and cellular electrophysiology was examined by whole-cell patch-clamp technique. Results: In wild type mice, we found 8-CPT-AM slightly increased AF susceptibility and that this was blocked by the EPAC1 inhibitor AM-001 but not the EPAC2 inhibitor ESI-05. Consistent with this, in EPAC1 KO mice, occurrence of AF was observed in 3/12 (vs. 4/10 WT littermates) and 4/10 in EPAC2 KO (vs. 5/10 WT littermates). In wild type animals, optical mapping experiments revealed that 8-CPT-AM perfusion increased action potential duration even in the presence of AM-001 or ESI-05. Interestingly, 8-CPT-AM perfusion decreased conduction velocity, an effect blunted by AM-001 but not ESI-05. Patch-clamp experiments demonstrated action potential prolongation after 8-CPT-AM perfusion in both wild type and EPAC1 KO mice and this effect was partially prevented by AM-001 in WT. Conclusion: Together, these results indicate that EPAC1 and EPAC2 signaling pathways differentially alter atrial electrophysiology but only the EPAC1 isoform is involved in the genesis of AF. Selective blockade of EPAC1 with AM-001 prevents AF in mice., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Guillot, Boileve, Walton, Harfoush, Conte, Sainte-Marie, Charron, Bernus, Recalde, Sallé, Brette and Lezoualc’h.)

Published

2023

18. Endocardial role in arrhythmias induced by acute ventricular stretch and the involvement of Purkinje fibres, in isolated rat hearts.

Author

Hurley M, Kaur S, Walton R, Power A, Haïssaguerre M, Bernus O, Ward ML, and White E

Abstract

Purkinje fibres (PFs) play an important role in some ventricular arrhythmias and acute ventricular stretch can evoke mechanically-induced arrhythmias. We tested whether PFs and specifically TRPM4 channels, play a role in these mechanically-induced arrhythmias. Pseudo-ECGs and left ventricular (LV) activation, measured by optical mapping, were recorded in isolated, Langendorff-perfused, rat hearts. The LV endocardial surface was irrigated with experimental agents, via an indwelling catheter. The number and period of ectopic activations was measured during LV lumen inflation via an indwelling fluid-filled balloon (100 μL added over 2 s, maintained for 38 s). Mechanically-induced arrhythmias occurred during balloon inflation: they were multifocal, maximal in the first 5 s and ceased within 20 s. Optical mapping revealed activation patterns indicating PF-mediated and ectopic focal sources. Irrigation of the LV lumen with Lugol solution (IK/I 2 ) for 10s reduced ectopics by 93% (n = 16, P < 0.001); with ablation of endocardial PFs confirmed by histology. Five min irrigation of the LV lumen with 50 μM 9-Phenanthrol, a blocker of TRPM4 channels, reduced ectopics by 39% (n = 15, P < 0.01). Immunohistochemistry confirmed that TRPM4 was more abundant in PFs than myocardium. Our results show that the endocardial surface plays an important role in these mechanically-induced ectopic activations. Ectopic activation patterns indicate a participation of PFs in these arrhythmias, with a potential involvement of TRPM4 channels, shown by the reduction of arrhythmias by 9-Phenanthrol., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors. Published by Elsevier B.V.)

Published

2023

19. Regional Differences in Ca 2+ Signaling and Transverse-Tubules across Left Atrium from Adult Sheep.

Author

Cros C, Douard M, Chaigne S, Pasqualin C, Bru-Mercier G, Recalde A, Pascarel-Auclerc C, Hof T, Haïssaguerre M, Hocini M, Jaïs P, Bernus O, and Brette F

Subjects

Humans, Animals, Sheep, Calcium Signaling, Calcium metabolism, Heart Atria metabolism, Myocytes, Cardiac metabolism, Calcium, Dietary metabolism, Disease Models, Animal, Atrial Fibrillation metabolism

Abstract

Cardiac excitation-contraction coupling can be different between regions of the heart. Little is known at the atria level, specifically in different regions of the left atrium. This is important given the role of cardiac myocytes from the pulmonary vein sleeves, which are responsible for ectopic activity during atrial fibrillation. In this study, we present a new method to isolate atrial cardiac myocytes from four different regions of the left atrium of a large animal model, sheep, highly relevant to humans. Using collagenase/protease we obtained calcium-tolerant atrial cardiac myocytes from the epicardium, endocardium, free wall and pulmonary vein regions. Calcium transients were slower (time to peak and time to decay) in free wall and pulmonary vein myocytes compared to the epicardium and endocardium. This is associated with lower t-tubule density. Overall, these results suggest regional differences in calcium transient and t-tubule density across left atria, which may play a major role in the genesis of atrial fibrillation.

Published

2023

20. A comprehensive framework for evaluation of high pacing frequency and arrhythmic optical mapping signals.

Author

Ramlugun GS, Kulkarni K, Pallares-Lupon N, Boukens BJ, Efimov IR, Vigmond EJ, Bernus O, and Walton RD

Abstract

Introduction: High pacing frequency or irregular activity due to arrhythmia produces complex optical mapping signals and challenges for processing. The objective is to establish an automated activation time-based analytical framework applicable to optical mapping images of complex electrical behavior. Methods: Optical mapping signals with varying complexity from sheep ( N = 7) ventricular preparations were examined. Windows of activation centered on each action potential upstroke were derived using Hilbert transform phase. Upstroke morphology was evaluated for potential multiple activation components and peaks of upstroke signal derivatives defined activation time. Spatially and temporally clustered activation time points were grouped in to wave fronts for individual processing. Each activation time point was evaluated for corresponding repolarization times. Each wave front was subsequently classified based on repetitive or non-repetitive events. Wave fronts were evaluated for activation time minima defining sites of wave front origin. A visualization tool was further developed to probe dynamically the ensemble activation sequence. Results: Our framework facilitated activation time mapping during complex dynamic events including transitions to rotor-like reentry and ventricular fibrillation. We showed that using fixed AT windows to extract AT maps can impair interpretation of the activation sequence. However, the phase windowing of action potential upstrokes enabled accurate recapitulation of repetitive behavior, providing spatially coherent activation patterns. We further demonstrate that grouping the spatio-temporal distribution of AT points in to coherent wave fronts, facilitated interpretation of isolated conduction events, such as conduction slowing, and to derive dynamic changes in repolarization properties. Focal origins precisely detected sites of stimulation origin and breakthrough for individual wave fronts. Furthermore, a visualization tool to dynamically probe activation time windows during reentry revealed a critical single static line of conduction slowing associated with the rotation core. Conclusion: This comprehensive analytical framework enables detailed quantitative assessment and visualization of complex electrical behavior., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Ramlugun, Kulkarni, Pallares-Lupon, Boukens, Efimov, Vigmond, Bernus and Walton.)

Published

2023

21. Reversible and Irreversible Effects of Electroporation on Contractility and Calcium Homeostasis in Isolated Cardiac Ventricular Myocytes.

Author

Chaigne S, Sigg DC, Stewart MT, Hocini M, Batista Napotnik T, Miklavčič D, Bernus O, and Benoist D

Subjects

Rats, Animals, Heart Ventricles metabolism, Electroporation, Homeostasis, Myocytes, Cardiac metabolism, Calcium metabolism

Abstract

Background: Irreversible electroporation is an energy form utilizing high-voltage pulsed electric field, leading to cellular homeostasis disruption and cell death. Recently, irreversible electroporation has shown promising results for the treatment of cardiac arrhythmias. However, reversible and irreversible effects of pulsed electric field on cardiac myocytes remain poorly understood. Here, we evaluated the influence of a monophasic single electric pulse (EP) on the contractility, Ca 2+ homeostasis and recovery of cardiac myocytes., Methods: Isolated rat left ventricular myocytes were electroporated using single monophasic EP of different durations and voltages. Sarcomere length and intracellular Ca 2+ were simultaneously monitored for up to 20 minutes after EP application in Fura-2 loaded left ventricular myocytes. Lethal voltage thresholds were determined using 100 µs and 10 ms pulses and by discriminating cell orientation with respect to the electric field., Results: Electroporation led to an immediate increase in intracellular Ca 2+ which was dependent upon the voltage delivered to the cell. Intermediate-voltage EP (140 V, 100 µs) increased sarcomere shortening, Ca 2+ transient amplitude, and diastolic Ca 2+ level measured 1 minute post-EP. Although sarcomere shortening returned to pre-EP level within 5 minutes, Ca 2+ transient amplitude decreased further below pre-EP level and diastolic Ca 2+ level remained elevated within 20 minutes post-EP. Spontaneous contractions were observed after sublethal EP application but their frequency decreased progressively within 20 minutes. Lethal EP voltage threshold was lower in myocytes oriented perpendicular than parallel to the electric field using 100 µs pulses while an opposite effect was found using 10 ms pulses., Conclusions: Sublethal EP affected rat left ventricular myocytes contractility and disrupted Ca 2+ homeostasis as a function of the EP voltage. Moreover, EP-induced lethality was preceded by a large increase in intracellular Ca 2+ and was dependent upon the EP duration, amplitude and left ventricular myocytes orientation with respect to the electric field. These findings provide new insights into the effect of pulsed electric field on cardiac myocytes.

Published

2022

22. Reply to the Editor- Give to Caesar what belongs to Caesar.

Author

Haissaguerre M, Escande W, Gourraud JB, Bernus O, and Sacher F

Published

2022

23. Malignant Purkinje ectopy induced by sodium channel blockers.

Author

Escande W, Gourraud JB, Haissaguerre M, Gandjbakhch E, Lavergne T, Martins R, Cheniti G, Krisai P, Hermida JS, Maury P, Merino JL, Pasquié JL, Combes N, Surget E, Duchateau J, Pambrun T, Derval N, Hocini M, Jaïs P, Postema PG, Nademanee K, Vigmond E, Bernus O, Sacher F, and Probst V

Subjects

Adult, Ajmaline, Electrocardiography methods, Flecainide, Humans, Male, Middle Aged, Reproducibility of Results, Sodium Channel Blockers adverse effects, Catheter Ablation, Tachycardia, Ventricular diagnosis, Tachycardia, Ventricular epidemiology, Tachycardia, Ventricular etiology, Ventricular Premature Complexes

Abstract

Background: Sodium channel blocker (SCB) infusion is used to unmask the electrocardiographic pattern of Brugada syndrome. The test may also induce premature ventricular complexes (PVCs) in individuals without Brugada pattern, the clinical relevance of which is little known., Objective: The purpose of this study was to describe the prevalence of short-coupled (Sc) PVCs induced by ajmaline or flecainide in patients with suspected or documented severe ventricular arrhythmias., Methods: We reviewed the SCB tests performed in 335 patients with suspected ventricular arrhythmias and structurally normal hearts in 9 centers. ScPVCs were defined as frequent and repetitive PVCs with an R-on-T pattern on SCB tests. Repeated SCB tests were performed in 7 patients and electrophysiological mapping of ScPVCs in 9., Results: Sixteen patients (8 men; mean age 36 ± 11 years) showed ScPVCs and were included. ScPVCs appeared 229 ± 118 seconds after the initiation of infusion and displayed coupling intervals of 288 ± 28 ms. ScPVC patterns were monomorphic in 12 patients, originating from the Purkinje system in mapped patients. Repetitive PVCs were induced in 15 patients (94%) including polymorphic ventricular tachycardias in 9 (56%). SCB infusion was repeated 45 (interquartile range 0.6-46) months later and induced identical ScPVC in all. SCB test was the only mean to reveal the malignant arrhythmia in 6 patients. Catheter ablation was performed in 9 patients, resulting in arrhythmia elimination in 8 with a follow-up of 6 (interquartile range 2-9) years., Conclusion: SCB can induce ScPVC, mostly from Purkinje tissue, in a small subset of patients with idiopathic ventricular arrhythmias. Its high reproducibility suggests a distinct individual mechanism., (Copyright © 2022 Heart Rhythm Society. Published by Elsevier Inc. All rights reserved.)

Published

2022

24. Dependence of epicardial T-wave on local activation voltage in Brugada syndrome.

Author

Haissaguerre M, Cheniti G, Nademanee K, Sacher F, Duchateau J, Coronel R, Vigmond E, Boukens BJ, and Bernus O

Subjects

Action Potentials, Arrhythmias, Cardiac, Electrocardiography, Heart Conduction System, Humans, Brugada Syndrome diagnosis

Published

2022

25. In vitro differentiation of human cardiac fibroblasts into myofibroblasts: characterization using electrical impedance.

Author

Degache A, Poulletier de Gannes F, Garenne A, Renom R, Percherancier Y, Lagroye I, Bernus O, and Lewis N

Subjects

Cells, Cultured, Electric Impedance, Fibroblasts metabolism, Fibroblasts pathology, Fibrosis, Humans, Myofibroblasts metabolism, Myofibroblasts pathology, Transforming Growth Factor beta1 metabolism, Transforming Growth Factor beta1 pharmacology

Abstract

Cardiac arrhythmias represent about 50% of the cardiovascular diseases which are the first cause of mortality in the world. Implantable medical devices play a major role for treating these arrhythmias. Nevertheless the leads induce an unwanted biological phenomenon called fibrosis. This phenomenon begins at a cellular level and is effective at a macroscopic scale causing tissue remodelling with a local modification of the active cardiac tissue. Fibrosis mechanism is complex but at the cellular level, it mainly consists in cardiac fibroblasts activation and differentiation into myofibroblasts. We developed a simplified in vitro model of cardiac fibrosis, with human cardiac fibroblasts whom differentiation into myofibroblasts was promoted with TGF- β 1. Our study addresses an unreported impedance-based method for real-time monitoring of in vitro cardiac fibrosis. The objective was to study whether the differentiation of cardiac fibroblasts in myofibroblasts had a specific signature on the cell index, an impedance-based feature measured by the xCELLigence system. Primary human cardiac fibroblasts were cultured along 6 days, with or without laminin coating, to study the role of this adhesion protein in cultures long-term maintenance. The cultures were characterized in the presence or absence of TGF- β 1 and we obtained a significant cell index signature specific to the human cardiac fibroblasts differentiation., (© 2022 IOP Publishing Ltd.)

Published

2022

26. Investigating Electrophysiological Markers of Arrhythmogenesis in a Chronic Myocardial Infarction Ovine Model.

Author

Kulkarni K, Pallares-Lupon N, Armoundas AA, Pasdois P, Bernus O, and Walton RD

Subjects

Animals, Arrhythmias, Cardiac, Biomarkers, Sheep, Sheep, Domestic, Myocardial Infarction complications, Myocardial Infarction diagnosis, Tachycardia, Ventricular diagnosis, Tachycardia, Ventricular etiology

Abstract

Cardiac alternans has been associated with an increased propensity to lethal tachyarrhythmias such as ventricular tachycardia and fibrillation (VT/VF). Myocardial infarction (MI), resulting from restricted oxygen supply to the heart, is a known substrate for VT/VF. Here, we investigate the utility of cardiac alternans as a predictor of tachyarrhythmias in a chronic MI ovine model. In-vivo electrophysiological studies were performed to assess the change in microvolt T-wave alternans (TWA) with induction of acute ischemia following coronary artery occlusion. 24-hour telemetry was performed in an ambulatory animal for 6 weeks to monitor the progression of TWA with chronic MI. At 6 weeks, ex-vivo optical mapping experiments were performed to assess the spatiotemporal evolution of alternans in sham (n=5) and chronic MI hearts (n=8). Our results demonstrate that chronic MI leads to significant electrophysiological changes in the cardiac substrate. Significant increase in TWA is observed post occlusion and a steady rise in alternans is seen with progression of chronic MI. Compared to sham, chronic MI hearts show significant presence of localized action potential amplitude alternans, which spatially evolve with an increase in pacing frequency. Clinical Relevance - Our results demonstrate that localized alternans underlie arrhythmogenesis in chronic MI hearts and microvolt TWA can serve as a biomarker of disease progression during chronic MI.

Published

2022

27. Impact of intraventricular septal fiber orientation on cardiac electromechanical function.

Author

Rodríguez-Padilla J, Petras A, Magat J, Bayer J, Bihan-Poudec Y, El Hamrani D, Ramlugun G, Neic A, Augustin CM, Vaillant F, Constantin M, Benoist D, Pourtau L, Dubes V, Rogier J, Labrousse L, Bernus O, Quesson B, Haïssaguerre M, Gsell M, Plank G, Ozenne V, and Vigmond E

Subjects

Animals, Diamond, Dogs, Heart Ventricles, Mammals, Myocardium, Rats, Sheep, Swine, Diffusion Tensor Imaging, Ventricular Septum diagnostic imaging

Abstract

Cardiac fiber direction is an important factor determining the propagation of electrical activity, as well as the development of mechanical force. In this article, we imaged the ventricles of several species with special attention to the intraventricular septum to determine the functional consequences of septal fiber organization. First, we identified a dual-layer organization of the fiber orientation in the intraventricular septum of ex vivo sheep hearts using diffusion tensor imaging at high field MRI. To expand the scope of the results, we investigated the presence of a similar fiber organization in five mammalian species (rat, canine, pig, sheep, and human) and highlighted the continuity of the layer with the moderator band in large mammalian species. We implemented the measured septal fiber fields in three-dimensional electromechanical computer models to assess the impact of the fiber orientation. The downward fibers produced a diamond activation pattern superficially in the right ventricle. Electromechanically, there was very little change in pressure volume loops although the stress distribution was altered. In conclusion, we clarified that the right ventricular septum has a downwardly directed superficial layer in larger mammalian species, which can have modest effects on stress distribution. NEW & NOTEWORTHY A dual-layer organization of the fiber orientation in the intraventricular septum was identified in ex vivo hearts of large mammals. The RV septum has a downwardly directed superficial layer that is continuous with the moderator band. Electrically, it produced a diamond activation pattern. Electromechanically, little change in pressure volume loops were noticed but stress distribution was altered. Fiber distribution derived from diffusion tensor imaging should be considered for an accurate strain and stress analysis.

Published

2022

28. Purkinje network and myocardial substrate at the onset of human ventricular fibrillation: implications for catheter ablation.

Author

Haissaguerre M, Cheniti G, Hocini M, Sacher F, Ramirez FD, Cochet H, Bear L, Tixier R, Duchateau J, Walton R, Surget E, Kamakura T, Marchand H, Derval N, Bordachar P, Ploux S, Takagi T, Pambrun T, Jais P, Labrousse L, Strik M, Ashikaga H, Calkins H, Vigmond E, Nademanee K, Bernus O, and Dubois R

Subjects

Body Surface Potential Mapping, Electrocardiography, Heart Ventricles, Humans, Ventricular Fibrillation, Brugada Syndrome, Catheter Ablation methods

Abstract

Aims: Mapping data of human ventricular fibrillation (VF) are limited. We performed detailed mapping of the activities underlying the onset of VF and targeted ablation in patients with structural cardiac abnormalities., Methods and Results: We evaluated 54 patients (50 ± 16 years) with VF in the setting of ischaemic (n = 15), hypertrophic (n = 8) or dilated cardiomyopathy (n = 12), or Brugada syndrome (n = 19). Ventricular fibrillation was mapped using body-surface mapping to identify driver (reentrant and focal) areas and invasive Purkinje mapping. Purkinje drivers were defined as Purkinje activities faster than the local ventricular rate. Structural substrate was delineated by electrogram criteria and by imaging. Catheter ablation was performed in 41 patients with recurrent VF. Sixty-one episodes of spontaneous (n = 10) or induced (n = 51) VF were mapped. Ventricular fibrillation was organized for the initial 5.0 ± 3.4 s, exhibiting large wavefronts with similar cycle lengths (CLs) across both ventricles (197 ± 23 vs. 196 ± 22 ms, P = 0.9). Most drivers (81%) originated from areas associated with the structural substrate. The Purkinje system was implicated as a trigger or driver in 43% of patients with cardiomyopathy. The transition to disorganized VF was associated with the acceleration of initial reentrant activities (CL shortening from 187 ± 17 to 175 ± 20 ms, P < 0.001), then spatial dissemination of drivers. Purkinje and substrate ablation resulted in the reduction of VF recurrences from a pre-procedural median of seven episodes [interquartile range (IQR) 4-16] to 0 episode (IQR 0-2) (P < 0.001) at 56 ± 30 months., Conclusions: The onset of human VF is sustained by activities originating from Purkinje and structural substrate, before spreading throughout the ventricles to establish disorganized VF. Targeted ablation results in effective reduction of VF burden., Key Question: The initial phase of human ventricular fibrillation (VF) is critical as it involves the primary activities leading to sustained VF and arrhythmic sudden death. The origin of such activities is unknown., Key Finding: Body-surface mapping shows that most drivers (≈80%) during the initial VF phase originate from electrophysiologically defined structural substrates. Repetitive Purkinje activities can be elicited by programmed stimulation and are implicated as drivers in 37% of cardiomyopathy patients., Take-Home Message: The onset of human VF is mostly associated with activities from the Purkinje network and structural substrate, before spreading throughout the ventricles to establish sustained VF. Targeted ablation reduces or eliminates VF recurrence., (© The Author(s) 2022. Published by Oxford University Press on behalf of European Society of Cardiology.)

Published

2022

29. Multisite conduction block in the epicardial substrate of Brugada syndrome.

Author

Haïssaguerre M, Nademanee K, Sacher F, Cheniti G, Hocini M, Surget E, Dubois R, Vigmond E, and Bernus O

Subjects

Action Potentials, Adult, Aged, Ajmaline pharmacology, Arrhythmias, Cardiac, Electrocardiography, Heart Block, Humans, Male, Middle Aged, Brugada Syndrome diagnosis

Abstract

Background: The Brugada pattern manifests as a spontaneous variability of the electrocardiographic marker, suggesting a variability of the underlying electrical substrate., Objective: The purpose of this study was to investigate the response of the epicardial substrate of Brugada syndrome (BrS) to programmed ventricular stimulation and to Na blocker infusion., Methods: We investigated 6 patients (all male; mean age 54 ± 14 years) with BrS and recurrent ventricular fibrillation. Five had no type 1 BrS electrocardiogram pattern at admission. They underwent combined epicardial-endocardial mapping using multielectrode catheters. Changes in epicardial electrograms were evaluated during single endocardial extrastimulation and after low-dose ajmaline infusion (0.5 mg/kg in 5 minutes)., Results: All patients had a region in the anterior epicardial right ventricle with prolonged multicomponent electrograms. Single extrastimulation prolonged late epicardial components by 59 ± 31 ms and in 4 patients abolished epicardial components at some sites, without reactivation by surrounding activated sites. These localized blocks occurred at an initial coupling interval of 335 ± 58 ms and then expanded to other sites, being observed in up to 40% of epicardial sites. Ajmaline infusion prolonged electrogram duration in all and produced localized blocks in 62% of sites in the same patients as during extrastimulation. Epicardial conduction recovery after ajmaline occurred intermittently and at discontinuous sites and produced beat-to-beat changes in local repolarization, resulting in an area of marked electrical disparity. These changes were consistent with models based on microstructural alterations under critical propagation conditions., Conclusion: In BrS, localized functional conduction blocks occur at multiple epicardial sites and with variable patterns, without being reactivated from the surrounding sites., (Copyright © 2021 Heart Rhythm Society. Published by Elsevier Inc. All rights reserved.)

Published

2022

30. Electrophysiology and Arrhythmogenesis in the Human Right Ventricular Outflow Tract.

Author

Aras K, Gams A, Faye NR, Brennan J, Goldrick K, Li J, Zhong Y, Chiang CH, Smith EH, Poston MD, Chivers J, Hanna P, Mori S, Ajijola OA, Shivkumar K, Hoover DB, Viventi J, Rogers JA, Bernus O, and Efimov IR

Subjects

Acetylcholine pharmacology, Adrenergic Agents, Cardiac Electrophysiology, Cholinergic Agents, Electrocardiography, Female, Heart Ventricles, Human Rights, Humans, Isoproterenol pharmacology, Male, Pericardium, Tachycardia, Ventricular etiology, Ventricular Premature Complexes

Abstract

Background: Right ventricular outflow tract (RVOT) is a common source of ventricular tachycardia, which often requires ablation. However, the mechanisms underlying the RVOT's unique arrhythmia susceptibility remain poorly understood due to lack of detailed electrophysiological and molecular studies of the human RVOT., Methods: We conducted optical mapping studies in 16 nondiseased donor human RVOT preparations subjected to pharmacologically induced adrenergic and cholinergic stimulation to evaluate susceptibility to arrhythmias and characterize arrhythmia dynamics., Results: We found that under control conditions, RVOT has shorter action potential duration at 80% repolarization relative to the right ventricular apical region. Treatment with isoproterenol (100 nM) shortened action potential duration at 80% repolarization and increased incidence of premature ventricular contractions ( P =0.003), whereas acetylcholine (100 μM) stimulation alone had no effect on action potential duration at 80% repolarization or premature ventricular contractions. However, acetylcholine treatment after isoproterenol stimulation reduced the incidence of premature ventricular contractions ( P =0.034) and partially reversed action potential duration at 80% repolarization shortening ( P =0.029). Immunolabeling of RVOT (n=4) confirmed the presence of cholinergic marker VAChT (vesicular acetylcholine transporter) in the region. Rapid pacing revealed RVOT susceptibility to both concordant and discordant alternans. Investigation into transmural arrhythmia dynamics showed that arrhythmia wave fronts and phase singularities (rotors) were relatively more organized in the endocardium than in the epicardium ( P =0.006). Moreover, there was a weak but positive spatiotemporal autocorrelation between epicardial and endocardial arrhythmic wave fronts and rotors. Transcriptome analysis (n=10 hearts) suggests a trend that MAPK (mitogen-activated protein kinase) signaling, calcium signaling, and cGMP-PKG (protein kinase G) signaling are among the pathways that may be enriched in the male RVOT, whereas pathways of neurodegeneration may be enriched in the female RVOT., Conclusions: Human RVOT electrophysiology is characterized by shorter action potential duration relative to the right ventricular apical region. Cholinergic right ventricular stimulation attenuates the arrhythmogenic effects of adrenergic stimulation, including increase in frequency of premature ventricular contractions and shortening of wavelength. Right ventricular arrhythmia is characterized by positive spatial-temporal autocorrelation between epicardial-endocardial arrhythmic wave fronts and rotors that are relatively more organized in the endocardium.

Published

2022

31. Tissue Preparation Techniques for Contrast-Enhanced Micro Computed Tomography Imaging of Large Mammalian Cardiac Models with Chronic Disease.

Author

Pallares-Lupon N, Bayer JD, Guillot B, Caluori G, Ramlugun GS, Kulkarni K, Loyer V, Bloquet S, El Hamrani D, Naulin J, Constantin M, Dos Santos P, Bernus O, Jaïs P, Pasdois P, and Walton RD

Subjects

Animals, Chronic Disease, Mammals, Myocardium pathology, Sheep, Swine, X-Ray Microtomography, Atrial Fibrillation, Heart Atria

Abstract

Structural remodeling is a common consequence of chronic pathological stresses imposed on the heart. Understanding the architectural and compositional properties of diseased tissue is critical to determine their interactions with arrhythmic behavior. Microscale tissue remodeling, below the clinical resolution, is emerging as an important source of lethal arrhythmia, with high prevalence in young adults. Challenges remain in obtaining high imaging contrast at sufficient microscale resolution for preclinical models, such as large mammalian whole hearts. Moreover, tissue composition-selective contrast enhancement for three-dimensional high-resolution imaging is still lacking. Non-destructive imaging using micro-computed tomography shows promise for high-resolution imaging. The objective was to alleviate sufferance from X-ray over attenuation in large biological samples. Hearts were extracted from healthy pigs (N = 2), and sheep (N = 2) with either induced chronic myocardial infarction and fibrotic scar formation or induced chronic atrial fibrillation. Excised hearts were perfused with: a saline solution supplemented with a calcium ion quenching agent and a vasodilator, ethanol in serial dehydration, and hexamethyldisilizane under vacuum. The latter reinforced the heart structure during air-drying for 1 week. Collagen-dominant tissue was selectively bound by an X-ray contrast-enhancing agent, phosphomolybdic acid. Tissue conformation was stable in air, permitting long-duration microcomputed tomography acquisitions to obtain high-resolution (isotropic 20.7 µm) images. Optimal contrast agent loading by diffusion showed selective contrast enhancement of the epithelial layer and sub-endocardial Purkinje fibers in healthy pig ventricles. Atrial fibrillation (AF) hearts showed enhanced contrast accumulation in the posterior walls and appendages of the atria, attributed to greater collagen content. Myocardial infarction hearts showed increased contrast selectively in regions of cardiac fibrosis, which enabled the identification of interweaving surviving myocardial muscle fibers. Contrast-enhanced air-dried tissue preparations enabled microscale imaging of the intact large mammalian heart and selective contrast enhancement of underlying disease constituents.

Published

2022

32. Low-energy, single-pulse surface stimulation defibrillates large mammalian ventricles.

Author

Moreno A, Walton RD, Bernus O, Vigmond EJ, and Bayer JD

Subjects

Animals, Swine, Electric Countershock methods, Ventricular Fibrillation therapy

Abstract

Background: Strong electric shocks are the gold standard for ventricular defibrillation but are associated with pain and tissue damage. We hypothesized that targeting the excitable gap (EG) of reentry with low-energy surface stimulation is a less damaging and painless alternative for ventricular defibrillation., Objective: The purpose of this study was to determine the conditions under which low-energy surface stimulation defibrillates large mammalian ventricles., Methods: Low-energy surface stimulation was delivered with five electrodes that were 7 cm long and placed 1-2 cm apart on the endocardial and epicardial surfaces of perfused pig left ventricle (LV). Rapid pacing (>4 Hz) was used to induce reentry from a single electrode. A 2 ms defibrillation pulse ≤0.5 A was delivered from all electrodes with a varied time delay from the end of the induction protocol (0.1-5 seconds). Optical mapping was performed and arrhythmia dynamics analyzed. For mechanistic insight, simulations of the VF induction and defibrillation protocols were performed in silico with an LV model emulating the experimental conditions and electrodes placed 0.25-2 cm apart., Results: In living LV, reentry was induced with varying complexity and dominant frequencies ranging between 3.5 to 6.2 Hz over 8 seconds postinitiation. Low-energy defibrillation was achieved with energy <60 mJ and electrode separations up to 2 cm for less complex arrhythmia. In simulations, defibrillation consistently occurred when stimulation captured >75% of the EG, which blocked reentry <2.9 mm in front of the leading reentrant wavefront., Conclusion: Defibrillation with low-energy, single-pulse surface stimulation is feasible with energies below the human pain threshold (100 mJ). Optimal defibrillation occurs when arrhythmia complexity is minimal and electrodes capture >75% of the EG., (Copyright © 2021 Heart Rhythm Society. Published by Elsevier Inc. All rights reserved.)

Published

2022

33. It's clearly the heart! Optical transparency, cardiac tissue imaging, and computer modelling.

Author

Sands GB, Ashton JL, Trew ML, Baddeley D, Walton RD, Benoist D, Efimov IR, Smith NP, Bernus O, and Smaill BH

Subjects

Computer Simulation, Computers, Heart diagnostic imaging, Humans, Optical Imaging, Imaging, Three-Dimensional, Microscopy

Abstract

Recent developments in clearing and microscopy enable 3D imaging with cellular resolution up to the whole organ level. These methods have been used extensively in neurobiology, but their uptake in other fields has been much more limited. Application of this approach to the human heart and effective use of the data acquired present challenges of scale and complexity. Four interlinked issues need to be addressed: 1) efficient clearing and labelling of heart tissue, 2) fast microscopic imaging of human-scale samples, 3) handling and processing of multi-terabyte 3D images, and 4) extraction of structural information in computationally tractable structure-based models of cardiac function. Preliminary studies show that each of these requirements can be achieved with the appropriate application and development of existing technologies., Competing Interests: Declaration of competing interest The authors declare that they have no conflict of interest., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

34. Noninvasive detection of spatiotemporal activation-repolarization interactions that prime idiopathic ventricular fibrillation.

Author

Cluitmans MJM, Bear LR, Nguyên UC, van Rees B, Stoks J, Ter Bekke RMA, Mihl C, Heijman J, Lau KD, Vigmond E, Bayer J, Belterman CNW, Abell E, Labrousse L, Rogier J, Bernus O, Haïssaguerre M, Hassink RJ, Dubois R, Coronel R, and Volders PGA

Subjects

Animals, Electrocardiography methods, Heart Ventricles, Humans, Swine, Heart Arrest, Ventricular Fibrillation diagnosis

Abstract

A comprehensive understanding of the interaction between triggers and electrical substrates leading to ventricular fibrillation (VF) and sudden cardiac arrest is lacking, and electrical substrates are difficult to detect and localize with current clinical tools. Here, we created repolarization time (RT) dispersion by regional drug infusion in perfused explanted human ( n = 1) and porcine ( n = 6) hearts and in a computational model of the human ventricle. Arrhythmia induction was tested with a single ventricular extrastimulus applied at the early or late RT region. Arrhythmias could only be induced from early RT regions. Vulnerability to VF increased with RT gradient steepness and with larger areas of early RT, but not with markers on the body-surface electrocardiogram. Noninvasive electrocardiographic imaging was performed in survivors of idiopathic VF ( n = 11), patients with frequent premature ventricular complexes (PVCs) but no history of sudden cardiac arrest ( n = 7), and controls ( n = 10). In survivors of idiopathic VF, RT gradients were steeper than in controls, without differences in the clinical electrocardiogram, consistent with the ex vivo results. Patients with idiopathic VF also showed local myocardial regions with distinctly early-versus-late RT that were more balanced in size than in controls. Premature beats originated more often from the early RT regions in idiopathic VF survivors than in patients with frequent PVCs only. Thus, idiopathic VF emerges from the spatiotemporal interaction of a premature beat from an early-repolarization region with critical repolarization dispersion in that region. Electrocardiographic imaging can uncover the co-occurrence of these abnormalities.

Published

2021