Body surface potential mapping and computer simulation of human ventricular fibrillation

John R. Fitz-Clarke; J. L. Sapp; J. W. Warren; J. C. Clements; B. M. Horáček

Body surface potential mapping and computer simulation of human ventricular fibrillation

John R. Fitz-Clarke, J. L. Sapp, J. W. Warren, J. C. Clements, B. M. Horáček

Medicine

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

4 Citations (Scopus)

Abstract

Our aim was to study the electrical characteristics of human ventricular fibrillation (VF) by means of body surface potential mapping and heart-model simulations. We acquired 120-lead ECG data on the chest surface of patients undergoing controlled testing of implantable defibrillators. VF was induced by burst pacing, and ECGs were recorded for 5 to 7 seconds before the device delivered a rescue shock. We then used orthogonal decomposition to characterize spatial and temporal features of ECGs, and inverse solution to derive epicardial potential maps. To gain insight into mechanisms of VF, we used an anisotropic bidomain model of the human ventricular myocardium, featuring 5 ionic currents. The model showed meandering VF scroll waves exhibiting break-up and coalescence according to choice of ionic-current parameters. This combination of experiments and simulations offers a unique perspective on the origin of spatial patterns of ECG during VF.

Original language	English
Title of host publication	2006 Computers in Cardiology, CIC
Pages	397-400
Number of pages	4
Publication status	Published - 2006
Event	2006 Computers in Cardiology, CIC - Valencia, Spain Duration: Sept 17 2006 → Sept 20 2006

Publication series

Name	Computers in Cardiology
Volume	33
ISSN (Print)	0276-6574

Conference

Conference	2006 Computers in Cardiology, CIC
Country/Territory	Spain
City	Valencia
Period	9/17/06 → 9/20/06

ASJC Scopus Subject Areas

Computer Science Applications
Cardiology and Cardiovascular Medicine

Cite this

Fitz-Clarke, J. R., Sapp, J. L., Warren, J. W., Clements, J. C., & Horáček, B. M. (2006). Body surface potential mapping and computer simulation of human ventricular fibrillation. In 2006 Computers in Cardiology, CIC (pp. 397-400). Article 4511872 (Computers in Cardiology; Vol. 33).

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title = "Body surface potential mapping and computer simulation of human ventricular fibrillation",

abstract = "Our aim was to study the electrical characteristics of human ventricular fibrillation (VF) by means of body surface potential mapping and heart-model simulations. We acquired 120-lead ECG data on the chest surface of patients undergoing controlled testing of implantable defibrillators. VF was induced by burst pacing, and ECGs were recorded for 5 to 7 seconds before the device delivered a rescue shock. We then used orthogonal decomposition to characterize spatial and temporal features of ECGs, and inverse solution to derive epicardial potential maps. To gain insight into mechanisms of VF, we used an anisotropic bidomain model of the human ventricular myocardium, featuring 5 ionic currents. The model showed meandering VF scroll waves exhibiting break-up and coalescence according to choice of ionic-current parameters. This combination of experiments and simulations offers a unique perspective on the origin of spatial patterns of ECG during VF.",

author = "Fitz-Clarke, {John R.} and Sapp, {J. L.} and Warren, {J. W.} and Clements, {J. C.} and Hor{\'a}{\v c}ek, {B. M.}",

year = "2006",

language = "English",

isbn = "1424425328",

series = "Computers in Cardiology",

pages = "397--400",

booktitle = "2006 Computers in Cardiology, CIC",

note = "2006 Computers in Cardiology, CIC ; Conference date: 17-09-2006 Through 20-09-2006",

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T1 - Body surface potential mapping and computer simulation of human ventricular fibrillation

AU - Fitz-Clarke, John R.

AU - Sapp, J. L.

AU - Warren, J. W.

AU - Clements, J. C.

AU - Horáček, B. M.

PY - 2006

Y1 - 2006

N2 - Our aim was to study the electrical characteristics of human ventricular fibrillation (VF) by means of body surface potential mapping and heart-model simulations. We acquired 120-lead ECG data on the chest surface of patients undergoing controlled testing of implantable defibrillators. VF was induced by burst pacing, and ECGs were recorded for 5 to 7 seconds before the device delivered a rescue shock. We then used orthogonal decomposition to characterize spatial and temporal features of ECGs, and inverse solution to derive epicardial potential maps. To gain insight into mechanisms of VF, we used an anisotropic bidomain model of the human ventricular myocardium, featuring 5 ionic currents. The model showed meandering VF scroll waves exhibiting break-up and coalescence according to choice of ionic-current parameters. This combination of experiments and simulations offers a unique perspective on the origin of spatial patterns of ECG during VF.

AB - Our aim was to study the electrical characteristics of human ventricular fibrillation (VF) by means of body surface potential mapping and heart-model simulations. We acquired 120-lead ECG data on the chest surface of patients undergoing controlled testing of implantable defibrillators. VF was induced by burst pacing, and ECGs were recorded for 5 to 7 seconds before the device delivered a rescue shock. We then used orthogonal decomposition to characterize spatial and temporal features of ECGs, and inverse solution to derive epicardial potential maps. To gain insight into mechanisms of VF, we used an anisotropic bidomain model of the human ventricular myocardium, featuring 5 ionic currents. The model showed meandering VF scroll waves exhibiting break-up and coalescence according to choice of ionic-current parameters. This combination of experiments and simulations offers a unique perspective on the origin of spatial patterns of ECG during VF.

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M3 - Conference contribution

AN - SCOPUS:48049110402

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BT - 2006 Computers in Cardiology, CIC

T2 - 2006 Computers in Cardiology, CIC

Y2 - 17 September 2006 through 20 September 2006

ER -

Body surface potential mapping and computer simulation of human ventricular fibrillation

Abstract

Publication series

Conference

ASJC Scopus Subject Areas

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