Add to ORKGTechniques for automated local activation time annotation and conduction velocity estimation in cardiac mappin
Detection of slow electrical conduction areas is crucial for providing an effective ablation therapy...
Abstract Cardiac mapping is a necessary step for accurate diagnostics in cardiology. I
Current navigation systems incorporate algorithms for automatic identification of local activation t...
Techniques for automated local activation time annotation and conduction velocity estimation in card...
AbstractMeasurements of cardiac conduction velocity provide valuable functional and structural insig...
A critical factor in analyzing the propagation of activation waves in the myocardium is the definiti...
Electrical activation sequence mapping requires accurate identification of local activation, but bec...
Cardiac resynchronization therapy (CRT) is an effective intervention for patients with heart failure...
In this study, we propose a novel approach for estimation of local activation times (LATs) in fracti...
SUMMARY The reproducibility of the measurement of local epicardial activation times using in-traoper...
Background: Local activation time (LAT) annotation in unipolar electrograms is complicated by interf...
Objective: Cardiac mapping is an important diagnostic step in cardiac electrophysiology. One of its ...
Cardiac mapping is a necessary step for accurate diagnostics in cardiology. It generates an activati...
Conventional methods to assess local activation time (LAT) detect the peak of the bipolar electrogra...
International audienceVentricular (VT) and atrial (AT) tachycardias are some of the most common clin...
Detection of slow electrical conduction areas is crucial for providing an effective ablation therapy...
Abstract Cardiac mapping is a necessary step for accurate diagnostics in cardiology. I
Current navigation systems incorporate algorithms for automatic identification of local activation t...
Techniques for automated local activation time annotation and conduction velocity estimation in card...
AbstractMeasurements of cardiac conduction velocity provide valuable functional and structural insig...
A critical factor in analyzing the propagation of activation waves in the myocardium is the definiti...
Electrical activation sequence mapping requires accurate identification of local activation, but bec...
Cardiac resynchronization therapy (CRT) is an effective intervention for patients with heart failure...
In this study, we propose a novel approach for estimation of local activation times (LATs) in fracti...
SUMMARY The reproducibility of the measurement of local epicardial activation times using in-traoper...
Background: Local activation time (LAT) annotation in unipolar electrograms is complicated by interf...
Objective: Cardiac mapping is an important diagnostic step in cardiac electrophysiology. One of its ...
Cardiac mapping is a necessary step for accurate diagnostics in cardiology. It generates an activati...
Conventional methods to assess local activation time (LAT) detect the peak of the bipolar electrogra...
International audienceVentricular (VT) and atrial (AT) tachycardias are some of the most common clin...
Detection of slow electrical conduction areas is crucial for providing an effective ablation therapy...
Abstract Cardiac mapping is a necessary step for accurate diagnostics in cardiology. I
Current navigation systems incorporate algorithms for automatic identification of local activation t...