Journal Article10.1007/s10527-023-10323-6
An algorithm for electrocardiosignals processing in a multielectrode electrocardiological screening system for visualization of the electrical potential of the epicardium
Mikhail N. Kramm,T. L. N. Truong,Andrey Yu. Bodin,O. N. Bodin,Galina V. Zhikhareva +4 more
About: This article is published in Biomedical Engineering. The article was published on 01 Feb 2024.
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References
ACC/AHA 2002 Guideline Update for Exercise Testing: Summary Article
Raymond J. Gibbons,Gary J. Balady,J. Timothy Bricker,Bernard R. Chaitman,Gerald F. Fletcher,Victor F. Froelicher,Daniel B. Mark,Ben D. McCallister,Aryan N. Mooss,Michael G. O’Reilly,William L. Winters,Elliott M. Antman,Joseph S. Alpert,David P. Faxon,Valentin Fuster,Gabriel Gregoratos,Loren F. Hiratzka,Alice K. Jacobs,Richard O. Russell,Sidney C. Smith +19 more
TL;DR: The ACC/AHA guidelines for exercise testing that were published in 1997 have now been updated as mentioned in this paper and the full-text guidelines incorporating the updated material are available on the Internet (www.acc.org or www.americanheart.org).
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Noninvasive Electrocardiographic Imaging of Arrhythmogenic Substrates in Humans
TL;DR: This review summarizes results from electrocardiographic imaging studies of arrhythmogenic substrates associated with human clinical arrh rhythmias, which include heart failure, myocardial infarction scar, atrial fibrillation, and abnormal ventricular repolarization.
176
Binary optimization for source localization in the inverse problem of ECG
TL;DR: A binary optimization approach to the transmembrane voltage (TMV)-based problem and a hybrid metaheuristic approach and the difference of convex functions (DC) algorithm were tested, showing their potential for application in ECGI.
21
Reconstruction of Equivalent Electrical Sources on Heart Surface
Galina V. Zhikhareva,Mikhail N. Kramm,Oleg N. Bodin,Ralf Seepold,Anton I. Chernikov,Yana A. Kupriyanova,Natalija A. Zhuravleva +6 more
- 25 Apr 2018
TL;DR: This work proposes to reconstruct the equivalent electrical sources by numerical methods, based on integral connection between the density of electrical sources and potential in a conductive medium, based in the form of a simple or double electrical layer on the heart surface of the human torso.
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