Critical appraisal of technologies to assess electrical activity during atrial fibrillation: a position paper from the European Heart Rhythm Association and European Society of Cardiology Working Group on eCardiology in collaboration with the Heart Rhythm Society, Asia Pacific Heart Rhythm Society, Latin American Heart Rhythm Society and Computing in Cardiology-Reference-Cited by-同舟云学术

Critical appraisal of technologies to assess electrical activity during atrial fibrillation: a position paper from the European Heart Rhythm Association and European Society of Cardiology Working Group on eCardiology in collaboration with the Heart Rhythm Society, Asia Pacific Heart Rhythm Society, Latin American Heart Rhythm Society and Computing in Cardiology

Published:2021-12-08 Issue:2 Volume:24 Page:313-330
ISSN:1099-5129
Container-title:EP Europace
language:en
Short-container-title:

Author:

de Groot Natasja M S¹,Shah Dipen²,Boyle Patrick M³,Anter Elad⁴,Clifford Gari D⁵,Deisenhofer Isabel⁶,Deneke Thomas⁷,van Dessel Pascal⁸,Doessel Olaf⁹,Dilaveris Polychronis¹⁰,Heinzel Frank R¹¹,Kapa Suraj¹²,Lambiase Pier D¹³,Lumens Joost¹⁴,Platonov Pyotr G¹⁵,Ngarmukos Tachapong¹⁶,Martinez Juan Pablo¹⁷,Sanchez Alejandro Olaya¹⁸,Takahashi Yoshihide¹⁹,Valdigem Bruno P²⁰,van der Veen Alle-Jan²¹,Vernooy Kevin²²,Casado-Arroyo Ruben²³,De Potter Tom²⁴,Dinov Borislav²⁵,Kosiuk Jedrzej²⁶,Linz Dominik²⁷,Neubeck Lis²⁸,Svennberg Emma²⁹³⁰,Kim Young-Hoon³¹,Wan Elaine³²,Lopez-Cabanillas Nestor³³³⁴,Locati Emanuela T³⁵,Macfarlane Peter³⁶,

Affiliation:

1. Department of Cardiology, Erasmus University Medical Centre, Rotterdam, Delft University of Technology, Delft the Netherlands

2. Cardiology Service, University Hospitals Geneva, Geneva, Switzerland

3. Department of Bioengineering, University of Washington, Seattle, Washington, USA

4. Cardiac Electrophysiology Section, Department of Cardiovascular Medicine, Cleveland Clinic, Cleveland, Ohio, USA

5. Department of Biomedical Informatics, Emory University, Department of Biomedical Engineering, Georgia Institute of Technology and Emory University, Atlanta, USA

6. Department of Electrophysiology, German Heart Center Munich and Technical University of Munich, Munich, Germany

7. Department of Cardiology, Rhon-klinikum Campus Bad Neustadt, Germany

8. Department of Cardiology, Medisch Spectrum Twente, Twente, the Netherlands

9. Karlsruher Institut für Technologie (KIT), Karlsruhe, Germany

10. 1st University Department of Cardiology, National & Kapodistrian University of Athens School of Medicine, Hippokration Hospital, Athens, Greece

11. Department of Internal Medicine and Cardiology, Charité-Universitätsmedizin Berlin, Campus Virchow-Klinikum and DZHK (German Centre for Cardiovascular Research), Berlin, Germany

12. Department of Cardiology, Mayo Clinic, Rochester, USA

13. Barts Heart Centre and University College, London, UK

14. Cardiovascular Research Institute Maastricht (CARIM) Maastricht University, Maastricht, the Netherlands

15. Department of Cardiology, Clinical Sciences, Lund University, Lund, Sweden

16. Faculty of Medicine Ramathibodi Hospital, Mahidol University, Bangkok, Thailand

17. Aragon Institute of Engineering Research/IIS-Aragon and University of Zaragoza, Zaragoza, Spain, CIBER Bioengineering, Biomaterials and Nanomedicine (CIBER-BBN), Zaragoza, Spain

18. Department of Cardiology, Hospital San José, Fundacion Universitaia de Ciencas de la Salud, Bogota, Colombia

19. Department of Cardiovascular Medicine, Tokyo Medical and Dental University, Tokyo, Japan

20. Department of Cardiology, Hospital Rede D’or São Luiz, hospital Albert einstein and Dante pazzanese heart institute, São Paulo, Brasil

21. Department Circuits and Systems, Delft University of Technology, Delft, the Netherlands

22. Department of Cardiology, Cardiovascular Research Institute Maastricht (CARIM), Maastricht University Medical Centre, Maastricht, the Netherlands

23. Department of Cardiology, Erasme University Hospital, Université Libre de Bruxelles, Brussels, Belgium

24. Cardiology Department, Olv Aalst, Aalst, Belgium

25. Rhythmology Unit, Herzzentrum Leipzig, Leipzig, Germany

26. Department of Electrophysiology, Helios Clinic Koethen, Koethen, Germany

27. MUMC, Maastricht Hart en Vaat Centrum, Maastricht, The Netherlands

28. Edinburgh Napier University, Edinburgh, UK

29. Cardiology Department, Karolinska University Hospital, Sweden

30. Department of Clinical Sciences, Danderyd's Hospital, Danderyd, Sweden

31. Cardiology Department, Korea University Medical Center, Seoul, Republic of Korea

32. Columbia University, New York, USA

33. Adventist Cardiovascular Institute of Buenos Aires, Argentina

34. Medical School, 8 College Road, Singapore

35. Department of Arrhythmology and Electrophysiology, IRCCS Policlinico San Donato, San Donato Milanese, Milan, Italy

36. Electrocardiology Group, Institute of Health and Wellbeing, University of Glasgow, Level 1, New Lister Building, Royal Infirmary, Glasgow, UK

Abstract

Abstract We aim to provide a critical appraisal of basic concepts underlying signal recording and processing technologies applied for (i) atrial fibrillation (AF) mapping to unravel AF mechanisms and/or identifying target sites for AF therapy and (ii) AF detection, to optimize usage of technologies, stimulate research aimed at closing knowledge gaps, and developing ideal AF recording and processing technologies. Recording and processing techniques for assessment of electrical activity during AF essential for diagnosis and guiding ablative therapy including body surface electrocardiograms (ECG) and endo- or epicardial electrograms (EGM) are evaluated. Discussion of (i) differences in uni-, bi-, and multi-polar (omnipolar/Laplacian) recording modes, (ii) impact of recording technologies on EGM morphology, (iii) global or local mapping using various types of EGM involving signal processing techniques including isochronal-, voltage- fractionation-, dipole density-, and rotor mapping, enabling derivation of parameters like atrial rate, entropy, conduction velocity/direction, (iv) value of epicardial and optical mapping, (v) AF detection by cardiac implantable electronic devices containing various detection algorithms applicable to stored EGMs, (vi) contribution of machine learning (ML) to further improvement of signals processing technologies. Recording and processing of EGM (or ECG) are the cornerstones of (body surface) mapping of AF. Currently available AF recording and processing technologies are mainly restricted to specific applications or have technological limitations. Improvements in AF mapping by obtaining highest fidelity source signals (e.g. catheter–electrode combinations) for signal processing (e.g. filtering, digitization, and noise elimination) is of utmost importance. Novel acquisition instruments (multi-polar catheters combined with improved physical modelling and ML techniques) will enable enhanced and automated interpretation of EGM recordings in the near future.

Publisher

Oxford University Press (OUP)

Subject

Physiology (medical),Cardiology and Cardiovascular Medicine

Link

https://academic.oup.com/europace/article-pdf/24/2/313/42370306/euab254.pdf

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