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1. Scroll Waves and Filaments in excitable Media of higher spatial Dimension

Author

Cloet, Marie, Arno, Louise, Kabus, Desmond, Van der Veken, Joeri, Panfilov, Alexander V., and Dierckx, Hans

Subjects
Mathematics - Dynamical Systems, Nonlinear Sciences - Pattern Formation and Solitons
Abstract

Excitable media are ubiquitous in nature, and in such systems the local excitation tends to self-organize in traveling waves, or in rotating spiral-shaped patterns in two or three spatial dimensions. Examples include waves during a pandemic or electrical scroll waves in the heart. Here we show that such phenomena can be extended to a space of four or more dimensions and propose that connections of excitable elements in a network setting can be regarded as additional spatial dimensions. Numerical simulations are performed in four dimensions using the FitzHugh-Nagumo model, showing that the vortices rotate around a two-dimensional surface which we define as the superfilament. Evolution equations are derived for general superfilaments of co-dimension two in an N -dimensional space and their equilibrium configurations are proven to be minimal surfaces. We suggest that biological excitable systems, such as the heart or brain which have non-local connections can be regarded, at least partially, as multidimensional excitable media and discuss further possible studies in this direction.

Published
2023
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2. Unconventional Collective Resonance as Nonlinear Mechanism of Ectopic Activity in Excitable Media

Author

Teplenin, Alexander S., Kudryashova, Nina N., Majumder, Rupamanjari, de Vries, Antoine A. F., Panfilov, Alexander V., and Pijnappels, Daniel A.

Subjects
Physics - Biological Physics
Abstract

Many physical, chemical and biological processes rely on intrinsic oscillations to employ resonance responses to external stimuli of certain frequency. Such resonance phenomena in biological systems are typically explained by one of two mechanisms: either a classical linear resonance of harmonic oscillator, or entrainment and phase locking of nonlinear limit cycle oscillators subjected to periodic forcing. Here, we discover a nonlinear mechanism, which does not require intrinsic oscillations. Instead, the resonant frequency dependence arises from coupling between an excitable and a monostable region of the medium. This composite system is endowed with emergent bistability between a stable steady state and stable spatiotemporal oscillations. The resonant transition from stable state to oscillatory state is induced by waves of particular frequency travelling through the medium. This transition to the spatiotemporal oscillatory state requires accumulation of multiple waves, resulting in the exclusion of lower frequencies. The cutting off of high frequencies is realized by damping of wave amplitude in the monostable zone and then by activating amplitude sensitive dynamics in the monostable units. We demonstrate this new resonance mechanism in a simplistic reaction-diffusion model. Also, we reveal this collective resonance mechanism in in-vitro experiments and detailed biophysical simulations representing a major type of arrhythmia. We further demonstrate, both experimentally and theoretically, that the ongoing spatiotemporal oscillations, such as ectopic activity in cardiac tissue, can be stopped by travelling waves of high frequency. Overall, we claim the universality of this resonance mechanism in a broad class of nonlinear biophysical systems. Specifically, we hypothesize that such phenomena could be found in neuronal systems as an alternative to traditional resonant processes.

Published
2022

4. Considering discrepancy when calibrating a mechanistic electrophysiology model

Author

Lei, Chon Lok, Ghosh, Sanmitra, Whittaker, Dominic G., Aboelkassem, Yasser, Beattie, Kylie A., Cantwell, Chris D., Delhaas, Tammo, Houston, Charles, Novaes, Gustavo Montes, Panfilov, Alexander V., Pathmanathan, Pras, Riabiz, Marina, Santos, Rodrigo Weber dos, Walmsley, John, Worden, Keith, Mirams, Gary R., and Wilkinson, Richard D.

Subjects
Statistics - Computation, Quantitative Biology - Quantitative Methods, Statistics - Applications, Statistics - Machine Learning
Abstract

Uncertainty quantification (UQ) is a vital step in using mathematical models and simulations to take decisions. The field of cardiac simulation has begun to explore and adopt UQ methods to characterise uncertainty in model inputs and how that propagates through to outputs or predictions. In this perspective piece we draw attention to an important and under-addressed source of uncertainty in our predictions -- that of uncertainty in the model structure or the equations themselves. The difference between imperfect models and reality is termed model discrepancy, and we are often uncertain as to the size and consequences of this discrepancy. Here we provide two examples of the consequences of discrepancy when calibrating models at the ion channel and action potential scales. Furthermore, we attempt to account for this discrepancy when calibrating and validating an ion channel model using different methods, based on modelling the discrepancy using Gaussian processes (GPs) and autoregressive-moving-average (ARMA) models, then highlight the advantages and shortcomings of each approach. Finally, suggestions and lines of enquiry for future work are provided., Comment: This version is published in Philosophical Transactions of the Royal Society A; Updated in response to reviewer comments, including: added details to the introduction, fixed mathematical notations for clarity, and moved the original Table 3 to the supplement to avoid confusion

Published
2020
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5. A response function framework for the dynamics of meandering or large-core spiral waves and modulated traveling waves

Author

Dierckx, Hans, Panfilov, Alexander V., Verschelde, Henri, Biktashev, Vadim N., and Biktasheva, Irina V.

Subjects
Nonlinear Sciences - Pattern Formation and Solitons
Abstract

In many oscillatory or excitable systems, dynamical patterns emerge which are stationary or periodic up in a moving frame of reference. Examples include traveling waves or spiral waves in chemical systems or cardiac tissue. We present a unified theoretical framework for the drift of such patterns under small external perturbations, in terms of overlap integrals between the perturbation and the adjoint critical eigenfunctions of the linearised operator (i.e. `response functions'). For spiral waves, the finite radius of the spiral tip trajectory as well as spiral wave meander are taken into account. Different coordinates systems can be chosen, depending on whether one wants to predict the motion of the spiral wave tip, the time-averaged tip path, or the center of the meander flower. The framework is applied to analyse the drift of a meandering spiral wave in a constant external field in different regimes.

Published
2019
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6. Dynamical anchoring of distant Arrhythmia Sources by Fibrotic Regions via Restructuring of the Activation Pattern

Author

Vandersickel, Nele, Watanabe, Masaya, Tao, Qian, Fostier, Jan, Zeppenfeld, Katja, and Panfilov, Alexander V

Subjects
Quantitative Biology - Tissues and Organs
Abstract

Rotors are functional reentry sources identified in clinically relevant cardiac arrhythmias, such as ventricular and atrial fibrillation. Ablation targeting rotor sites has resulted in arrhythmia termination. Recent clinical, experimental and modelling studies demonstrate that rotors are often anchored around fibrotic scars or regions with increased fibrosis. However the mechanisms leading to abundance of rotors at these locations are not clear. The current study explores the hypothesis whether fibrotic scars just serve as anchoring sites for the rotors or whether there are other active processes which drive the rotors to these fibrotic regions. Rotors were induced at different distances from fibrotic scars of various sizes and degree of fibrosis. Simulations were performed in a 2D model of human ventricular tissue and in a patient-specific model of the left ventricle of a patient with remote myocardial infarction. In both the 2D and the patient-specific model we found that without fibrotic scars, the rotors were stable at the site of their initiation. However, in the presence of a scar, rotors were eventually dynamically anchored from large distances by the fibrotic scar via a process of dynamical reorganization of the excitation pattern. This process coalesces with a change from polymorphic to monomorphic ventricular tachycardia., Comment: 16 pages, 7 figures

Published
2018
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7. Qualitative analysis of differential equations

Author

Panfilov, Alexander V

Subjects
Mathematics - General Mathematics
Abstract

Here I introduce basic methods of qualitative analysis of differential equations used in mathematical biology for people with minimal mathematical background.

Published
2018

8. The statistical properties of spiral- and scroll-wave turbulence in cardiac tissue

Author

Rajany, K. V., Gupta, Anupam, Panfilov, Alexander V., and Pandit, Rahul

Subjects
Physics - Biological Physics
Abstract

Disorganized electrical activity in the heart leads to sudden cardiac death. To what extent can this electrical turbulence be viewed as classical fluid turbulence,which is an important central problem in modern physics? We investigate,for the first time,via extensive DNSs,the statistical properties of spiral-and scroll-wave turbulence in two- and three-dimensional excitable media by using approaches employed in studies of classical turbulence. We use the Panfilov and the Aliev-Panfilov mathematical models for cardiac tissue. We show that once electrical-wave turbulence has been initiated,there is a forward cascade,in which spirals or scrolls form,interact,and break to yield a turbulent state that is statistically steady and,far away from boundaries,is statistically homogeneous and isotropic. For the transmembrane potential $V$ and the slow recovery variable $g$,which define our models,we define $E_V(k)$ and $E_g(k)$,the electrical-wave analogs of the fluid energy spectrum $E(k)$ in fluid turbulence. We show that $E_V(k)$ and $E_g(k)$ are spread out over several decades in $k$. Thus spiral- and scroll-wave turbulence involves a wide range of spatial scales. $E_V(k)$ and $E_g(k)$ show approximate power laws,in some range of $k$, however,their exponents cannot be determined as accurately as their fluid-turbulence counterparts. The dimensionless ratio $L/\lambda$ is a convenient control parameter like the Reynolds number for fluid turbulence,where $L$ is the linear size of the domain and $\lambda$ the wavelength of a plane wave in the medium. By comparing several other statistical properties for spiral- and scroll-wave turbulence with their fluid-turbulence counterparts,we show that,although spiral- and scroll-wave turbulence have some statistical properties like those of fluid turbulence,overall these types of turbulence are special and differ in important ways from fluid turbulence., Comment: 16 pages, 24 figures, One table

Published
2017

9. Filament tension and phase-locked drift of meandering scroll waves

Author

Dierckx, Hans, Biktasheva, Irina V., Verschelde, Henri, Panfilov, Alexander V., and Biktashev, Vadim N.

Subjects
Nonlinear Sciences - Pattern Formation and Solitons
Abstract

Rotating scroll waves are self-organising patterns which are found in many oscillating or excitable systems. Here we show that quasi-periodic (meandering) scroll waves, which include the rotors that organise cardiac arrhythmias, exhibit filament tension when averaged over the meander cycle. With strong filament curvature or medium thickness gradients, however, scroll wave dynamics are governed by phase-locked drift instead of filament tension. Our results are validated in computational models of cycloidal meander and a cardiac tissue model with linear core., Comment: accepted for publication in Physical Review Letters (December 2017)

Published
2016
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12. Chiral selection and frequency response of spiral waves in reaction-diffusion systems under a chiral electric field

Author

Li, Bing-Wei, Cai, Mei-Chun, Zhang, Hong, Panfilov, Alexander V., and Dierckx, Hans

Subjects
Nonlinear Sciences - Pattern Formation and Solitons
Abstract

Chirality is one of the most fundamental properties of many physical, chemical and biological systems. However, the mechanisms underlying the onset and control of chiral symmetry are largely understudied. We investigate possibility of chirality control in a chemical excitable system (the BZ reaction) by application of a chiral (rotating) electric field using the Oregonator model. We find that unlike previous findings, we can achieve the chirality control not only in the field rotation direction, but also opposite to it, depending on the field rotation frequency. To unravel the mechanism, we further develop a comprehensive theory of frequency synchronization based on the response function approach. We find that this problem can be described by the Adler equation and show phase-locking phenomena, known as the Arnold tongue. Our theoretical predictions are in good quantitative agreement with the numerical simulations and provide a solid basis for chirality control in excitable media., Comment: 21 pages with 9 figures; update references; to appear in J. Chem. Phys

Published
2014
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13. Multisize Electrode Field-of-View: Validation by High Resolution Gadolinium-Enhanced Cardiac Magnetic Resonance

Author

Omara, Sharif (author), Glashan, Claire A. (author), Tofig, Bawer J. (author), Leenknegt, Lore (author), Dierckx, Hans (author), Panfilov, Alexander V. (author), Beukers, H.K.C. (author), Tao, Q. (author), van der Geest, Rob J. (author), Omara, Sharif (author), Glashan, Claire A. (author), Tofig, Bawer J. (author), Leenknegt, Lore (author), Dierckx, Hans (author), Panfilov, Alexander V. (author), Beukers, H.K.C. (author), Tao, Q. (author), and van der Geest, Rob J. (author)

Abstract

Background: Voltage mapping to detect ventricular scar is important for guiding catheter ablation, but the field-of-view of unipolar, bipolar, conventional, and microelectrodes as it relates to the extent of viable myocardium (VM) is not well defined. Objectives: The purpose of this study was to evaluate electroanatomic voltage-mapping (EAVM) with different-size electrodes for identifying VM, validated against high-resolution ex-vivo cardiac magnetic resonance (HR-LGE-CMR). Methods: A total of 9 swine with early-reperfusion myocardial infarction were mapped with the QDOT microcatheter. HR-LGE-CMR (0.3-mm slices) were merged with EAVM. At each EAVM point, the underlying VM in multisize transmural cylinders and spheres was quantified from ex vivo CMR and related to unipolar and bipolar voltages recorded from conventional and microelectrodes. Results: In each swine, 220 mapping points (Q1, Q3: 216, 260 mapping points) were collected. Infarcts were heterogeneous and nontransmural. Unipolar and bipolar voltage increased with VM volumes from >175 mm3 up to >525 mm3 (equivalent to a 5-mm radius cylinder with height >6.69 mm). VM volumes in subendocardial cylinders with 1- or 3-mm depth correlated poorly with all voltages. Unipolar voltages recorded with conventional and microelectrodes were similar (difference 0.17 ± 2.66 mV) and correlated best to VM within a sphere of radius 10 and 8 mm, respectively. Distance-weighting did not improve the correlation. Conclusions: Voltage increases with transmural volume of VM but correlates poorly with small amounts of VM, which limits EAVM in defining heterogeneous scar. Microelectrodes cannot distinguish thin from thick areas of subendocardial VM. The field-of-view for unipolar recordings for microelectrodes and conventional electrodes appears to be 8 to 10 mm, respectively, and unexpectedly similar., ImPhys/Tao group

Published
2024
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14. Anomalous drift of spiral waves in heterogeneous excitable media

Author

Sridhar, S., Sinha, Sitabhra, and Panfilov, Alexander. V.

Subjects
Nonlinear Sciences - Pattern Formation and Solitons, Physics - Biological Physics, Quantitative Biology - Tissues and Organs
Abstract

We study the drift of spiral waves in a simple model of heterogeneous excitable medium, having gradients in local excitability or cellular coupling. For the first time, we report the anomalous drift of spiral waves towards regions having higher excitability, in contrast to all earlier observations in reaction-diffusion models of excitable media. Such anomalous drift can promote the onset of complex spatio-temporal patterns, e.g., those responsible for life-threatening arrhythmias in the heart., Comment: 4 pages, 4 figures

Published
2009
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15. Multisize Electrode Field-of-View

Author

Omara, Sharif, primary, Glashan, Claire A., additional, Tofig, Bawer J., additional, Leenknegt, Lore, additional, Dierckx, Hans, additional, Panfilov, Alexander V., additional, Beukers, Hans K.C., additional, van Waasbergen, Michiel H., additional, Tao, Qian, additional, Stevenson, William G., additional, Nielsen, Jens C., additional, Lukac, Peter, additional, Kristiansen, Steen B., additional, van der Geest, Rob J., additional, and Zeppenfeld, Katja, additional

Published
2024
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16. ‘Trapped re-entry’ as source of acute focal atrial arrhythmias

Author

De Coster, Tim, primary, Teplenin, Alexander S, additional, Feola, Iolanda, additional, Bart, Cindy I, additional, Ramkisoensing, Arti A, additional, den Ouden, Bram L, additional, Ypey, Dirk L, additional, Trines, Serge A, additional, Panfilov, Alexander V, additional, Zeppenfeld, Katja, additional, de Vries, Antoine A F, additional, and Pijnappels, Daniël A, additional

Published
2023
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22. Cx43 hemichannel microdomain signaling at the intercalated disc enhances cardiac excitability

Author

De Smet, Maarten A.J., Lissoni, Alessio, Nezlobinsky, Timur, Wang, Nan, Dries, Eef, Perez-Hernandez, Marta, Lin, Xianming, Amoni, Matthew, Vervliet, Tim, Witschas, Katja, Rothenberg, Eli, Bultynck, Geert, Schulz, Rainer, Panfilov, Alexander V., Delmar, Mario, Sipido, Karin R., and Leybaert, Luc

Subjects
Care and treatment, Development and progression, Genetic aspects, Health aspects, Heart failure -- Genetic aspects -- Development and progression -- Care and treatment, Transport proteins -- Health aspects, Cellular signal transduction -- Genetic aspects -- Health aspects, Gene expression -- Health aspects, Carrier proteins -- Health aspects
Abstract

Introduction The pumping function of the heart is coordinated by electrical waves of excitation propagating through the myocardium and initiating cardiac contraction. Propagation of action potentials between cardiomyocytes is coordinated [...], Cx43, a major cardiac connexin, forms precursor hemichannels that accrue at the intercalated disc to assemble as gap junctions. While gap junctions are crucial for electrical conduction in the heart, little is known about the potential roles of hemichannels. Recent evidence suggests that inhibiting Cx43 hemichannel opening with Gap19 has antiarrhythmic effects. Here, we used multiple electrophysiology, imaging, and super-resolution techniques to understand and define the conditions underlying Cx43 hemichannel activation in ventricular cardiomyocytes, their contribution to diastolic [Ca.sup.2+] release from the sarcoplasmic reticulum, and their impact on electrical stability. We showed that Cx43 hemichannels were activated during diastolic [Ca.sup.2+] release in single ventricular cardiomyocytes and cardiomyocyte cell pairs from mice and pigs. This activation involved Cx43 hemichannel [Ca.sup.2+] entry and coupling to [Ca.sup.2+] release microdomains at the intercalated disc, resulting in enhanced [Ca.sup.2+] dynamics. Hemichannel opening furthermore contributed to delayed afterdepolarizations and triggered action potentials. In single cardiomyocytes, cardiomyocyte cell pairs, and arterially perfused tissue wedges from failing human hearts, increased hemichannel activity contributed to electrical instability compared with nonfailing rejected donor hearts. We conclude that microdomain coupling between Cx43 hemichannels and [Ca.sup.2+] release is a potentially novel, targetable mechanism of cardiac arrhythmogenesis in heart failure.

Published
2021
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24. Directed graph mapping shows rotors maintain non-terminating and focal sources maintain self-terminating Torsade de Pointes in canine model

Author

Medische Fysiologie, Circulatory Health, Van Den Abeele, Robin, Hendrickx, Sander, Van Nieuwenhuyse, Enid, Dunnink, Albert, Panfilov, Alexander V, Vos, Marc A, Wülfers, Eike M, Vandersickel, Nele, Medische Fysiologie, Circulatory Health, Van Den Abeele, Robin, Hendrickx, Sander, Van Nieuwenhuyse, Enid, Dunnink, Albert, Panfilov, Alexander V, Vos, Marc A, Wülfers, Eike M, and Vandersickel, Nele

Published
2023

25. 'Trapped re-entry' as source of acute focal atrial arrhythmias.

Author

Coster, Tim De, Teplenin, Alexander S, Feola, Iolanda, Bart, Cindy I, Ramkisoensing, Arti A, Ouden, Bram L den, Ypey, Dirk L, Trines, Serge A, Panfilov, Alexander V, Zeppenfeld, Katja, Vries, Antoine A F de, and Pijnappels, Daniël A

Subjects
ATRIAL arrhythmias, ATRIAL fibrillation, ATRIUMS (Architecture), ION channels, ARRHYTHMIA
Abstract

Aims Diseased atria are characterized by functional and structural heterogeneities, adding to abnormal impulse generation and propagation. These heterogeneities are thought to lie at the origin of fractionated electrograms recorded during sinus rhythm (SR) in atrial fibrillation (AF) patients and are assumed to be involved in the onset and perpetuation (e.g. by re-entry) of this disorder. The underlying mechanisms, however, remain incompletely understood. Here, we tested whether regions of dense fibrosis could create an electrically isolated conduction pathway (EICP) in which re-entry could be established via ectopy and local block to become 'trapped'. We also investigated whether this could generate local fractionated electrograms and whether the re-entrant wave could 'escape' and cause a global tachyarrhythmia due to dynamic changes at a connecting isthmus. Methods and results To precisely control and explore the geometrical properties of EICPs, we used light-gated depolarizing ion channels and patterned illumination for creating specific non-conducting regions in silico and in vitro. Insight from these studies was used for complementary investigations in virtual human atria with localized fibrosis. We demonstrated that a re-entrant tachyarrhythmia can exist locally within an EICP with SR prevailing in the surrounding tissue and identified conditions under which re-entry could escape from the EICP, thereby converting a local latent arrhythmic source into an active driver with global impact on the heart. In a realistic three-dimensional model of human atria, unipolar epicardial pseudo-electrograms showed fractionation at the site of 'trapped re-entry' in coexistence with regular SR electrograms elsewhere in the atria. Upon escape of the re-entrant wave, acute arrhythmia onset was observed. Conclusions Trapped re-entry as a latent source of arrhythmogenesis can explain the sudden onset of focal arrhythmias, which are able to transgress into AF. Our study might help to improve the effectiveness of ablation of aberrant cardiac electrical signals in clinical practice. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Impact of electrode orientation, myocardial wall thickness, and myofiber direction on intracardiac electrograms: numerical modeling and analytical solutions.

Author

Leenknegt, Lore, Panfilov, Alexander V., and Dierckx, Hans

Subjects
ANALYTICAL solutions, MYOCARDIUM, ENDOCARDIUM, INFINITE series (Mathematics), ELECTRODES
Abstract

Intracardiac electrograms (iEGMs) are time traces of the electrical potential recorded close to the heart muscle. We calculate unipolar and bipolar iEGMs analytically for a myocardial slab with parallel myofibers and validate them against numerical bidomain simulations. The analytical solution obtained via the method of mirrors is an infinite series of arctangents. It goes beyond the solid angle theory and is in good agreement with the simulations, even though bath loading effects were not accounted for in the analytical calculation. At a large distance from the myocardium, iEGMs decay as 1/R (unipolar), 1/R² (bipolar and parallel), and 1/R³ (bipolar and perpendicular to the endocardium). At the endocardial surface, there is a mathematical branch cut. Here, we show how a thicker myocardium generates iEGMs with larger amplitudes and how anisotropy affects the iEGM width and amplitude. If only the leading-order term of our expansion is retained, it can be determined how the conductivities of the bath, torso, myocardium, and myofiber direction together determine the iEGM amplitude. Our results will be useful in the quantitative interpretation of iEGMs, the selection of thresholds to characterize viable tissues, and for future inferences of tissue parameters. [ABSTRACT FROM AUTHOR]

Published
2023
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31. Amyloidogenic Peptides: New Class of Antimicrobial Peptides with the Novel Mechanism of Activity

Author

Galzitskaya, Oxana V., primary, Kurpe, Stanislav R., additional, Panfilov, Alexander V., additional, Glyakina, Anna V., additional, Grishin, Sergei Y., additional, Kochetov, Alexey P., additional, Deryusheva, Evgeniya I., additional, Machulin, Andrey V., additional, Kravchenko, Sergey V., additional, Domnin, Pavel A., additional, Surin, Alexey K., additional, Azev, Viacheslav N., additional, and Ermolaeva, Svetlana A., additional

Published
2022
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32. Multiple Antimicrobial Effects of Hybrid Peptides Synthesized Based on the Sequence of Ribosomal S1 Protein from Staphylococcus aureus

Author

Kravchenko, Sergey V., primary, Domnin, Pavel A., additional, Grishin, Sergei Y., additional, Panfilov, Alexander V., additional, Azev, Viacheslav N., additional, Mustaeva, Leila G., additional, Gorbunova, Elena Y., additional, Kobyakova, Margarita I., additional, Surin, Alexey K., additional, Glyakina, Anna V., additional, Fadeev, Roman S., additional, Ermolaeva, Svetlana A., additional, and Galzitskaya, Oxana V., additional

Published
2022
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39. Directed graph mapping exceeds phase mapping in discriminating true and false rotors detected with a basket catheter in a complex in-silico excitation pattern

Author

Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, European Commission, GENERALITAT VALENCIANA, Ministry of Science and Higher Education of the Russian Federation, Nieuwenhuyse, Enid Van, Martínez-Mateu, Laura, Saiz Rodríguez, Francisco Javier, Panfilov, Alexander V., Vandersickel, Nele, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, European Commission, GENERALITAT VALENCIANA, Ministry of Science and Higher Education of the Russian Federation, Nieuwenhuyse, Enid Van, Martínez-Mateu, Laura, Saiz Rodríguez, Francisco Javier, Panfilov, Alexander V., and Vandersickel, Nele

Abstract

[EN] Atrial fibrillation (AF) is the most frequently encountered arrhythmia in clinical practise. One of the major problems in the management of AF is the difficulty in identifying the arrhythmia sources from clinical recordings. That difficulty occurs because it is currently impossible to verify algorithms which determine these sources in clinical data, as high resolution true excitation patterns cannot be recorded in patients. Therefore, alternative approaches, like computer modelling are of great interest. In a recent published study such an approach was applied for the verification of one of the most commonly used algorithms, phase mapping (PM). A meandering rotor was simulated in the right atrium and a basket catheter was placed at 3 different locations: at the Superior Vena Cava (SVC), the Crista Terminalis (CT) and at the Coronary Sinus (CS). It was shown that although PM can identify the true source, it also finds several false sources due to the far-field effects and interpolation errors in all three positions. In addition, the detection efficiency strongly depended on the basket location. Recently, a novel tool was developed to analyse any arrhythmia called Directed Graph Mapping (DGM). DGM is based on network theory and creates a directed graph of the excitation pattern, from which the location and the source of the arrhythmia can be detected. Therefore, the objective of the current study was to compare the efficiency of DGM with PM on the basket dataset of this meandering rotor. The DGM-tool was applied for a wide variety of conduction velocities (minimal and maximal), which are input parameters of DGM. Overall we found that DGM was able to distinguish between the true rotor and false rotors for both the SVC and CT basket positions. For example, for the SVC position with a CVmin = 0.01 cmms, DGM detected the true core with a prevalence of 82% versus 94% for PM. Three false rotors where detected for 39.16% (DGM) versus 100% (PM); 22.64% (DGM) versus 100%

Published
2021

45. Self-restoration of cardiac excitation rhythm by anti-arrhythmic ion channel gating

Author

Majumder, Rupamanjari, primary, De Coster, Tim, additional, Kudryashova, Nina, additional, Verkerk, Arie O, additional, Kazbanov, Ivan V, additional, Ördög, Balázs, additional, Harlaar, Niels, additional, Wilders, Ronald, additional, de Vries, Antoine AF, additional, Ypey, Dirk L, additional, Panfilov, Alexander V, additional, and Pijnappels, Daniël A, additional

Published
2020
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47. Supplementary Methods and Results from Considering discrepancy when calibrating a mechanistic electrophysiology model

Author

Lei, Chon Lok, Sanmitra Ghosh, Whittaker, Dominic G., Aboelkassem, Yasser, Beattie, Kylie A., Cantwell, Chris D., Delhaas, Tammo, Houston, Charles, Novaes, Gustavo Montes, Panfilov, Alexander V., Pras Pathmanathan, Riabiz, Marina, Santos, Rodrigo Weber Dos, Walmsley, John, Worden, Keith, Mirams, Gary R., and Wilkinson, Richard D.

Subjects
InformationSystems_INFORMATIONSTORAGEANDRETRIEVAL, ComputingMilieux_COMPUTERSANDEDUCATION, Data_FILES, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, ComputerApplications_COMPUTERSINOTHERSYSTEMS
Abstract

a PDF file containing supplementary material

Published
2020
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