Cardiac mapping - recording cardiac activity during electrophysiological testing - has evolved into an indispensable tool in studying the cardiac excitation process, analysing activation patterns, and identifying arrhythmogenic tissue. Cardiac mapping is a broad term that is used here to encompass applications that record electrical or mechanical activity of the heart or both. In recent years, simultaneous and sequential electrical mapping methods have been combined with direct mechanical measurements or imaging techniques to acquire information regarding both the electrical and mechanical activity of the heart (electromechanical mapping) during normal and irregular cardiac behavior. This paper reviews the emerging area of electromechanical...
Optical mapping using membrane potential-sensitive fluorescent dyes provides a means of recording el...
Electrical activity at the level of the heart muscle can be noninvasively reconstructed from body-su...
The cornerstone of the new imaging technologies to treat complex arrhythmias is the electroanatomic ...
Cardiac mapping - recording cardiac activity during electrophysiological testing - has evolved into ...
The concept of mapping rhythmic activation of the heart dates back to the beginning of last century,...
AbstractFluorescent optical mapping of electrically active cardiac tissues provides a unique method ...
Cardiac arrhythmias are traditionally mapped by assessing the timing of electrical activation at var...
The electrocardiology and specifically body surface potential maps (BSPM) have two main objectives i...
This thesis presents the results of the work on a computerized cardiac mapping system for recording ...
Cardiac mapping is a broad term that covers several modes of mapping such as body surface,1 endocard...
AbstractIn this review, we outline contemporary and upcoming electroanatomic technologies focusing o...
Disturbances in the propagation of the electrical wavefront can cause cardiac arrhythmia’s that can,...
In the last two decades new mathematical and computational models and systems have been applied to t...
Abstract: Cardiac electric signals are currently the most informative source about the heart rhythm ...
Combined analysis of the electrical and mechanical function of the heart holds promise as a means of...
Optical mapping using membrane potential-sensitive fluorescent dyes provides a means of recording el...
Electrical activity at the level of the heart muscle can be noninvasively reconstructed from body-su...
The cornerstone of the new imaging technologies to treat complex arrhythmias is the electroanatomic ...
Cardiac mapping - recording cardiac activity during electrophysiological testing - has evolved into ...
The concept of mapping rhythmic activation of the heart dates back to the beginning of last century,...
AbstractFluorescent optical mapping of electrically active cardiac tissues provides a unique method ...
Cardiac arrhythmias are traditionally mapped by assessing the timing of electrical activation at var...
The electrocardiology and specifically body surface potential maps (BSPM) have two main objectives i...
This thesis presents the results of the work on a computerized cardiac mapping system for recording ...
Cardiac mapping is a broad term that covers several modes of mapping such as body surface,1 endocard...
AbstractIn this review, we outline contemporary and upcoming electroanatomic technologies focusing o...
Disturbances in the propagation of the electrical wavefront can cause cardiac arrhythmia’s that can,...
In the last two decades new mathematical and computational models and systems have been applied to t...
Abstract: Cardiac electric signals are currently the most informative source about the heart rhythm ...
Combined analysis of the electrical and mechanical function of the heart holds promise as a means of...
Optical mapping using membrane potential-sensitive fluorescent dyes provides a means of recording el...
Electrical activity at the level of the heart muscle can be noninvasively reconstructed from body-su...
The cornerstone of the new imaging technologies to treat complex arrhythmias is the electroanatomic ...