Add to ORKGRecently, we presented progress in the development of an inverse procedure based on the equivalent double layer at the surface of the heart for non-invasive imaging of the activation sequence on this surface. The number of signals used was 64. In this paper we compared the activation sequences estimated from fewer signals from those obtained when using the 64 signals (the activation times estimated from the 64 signals are taken as the gold standard). The lead systems studied involved 32 (Lux), 23 (Barr), eight (standard 12-lead) or six independent (un-weighted Frank) signals. The inverse procedure proved to be remarkably robust with respect to this reduction in the number of leads, the 12-lead ECG yielding the poorest results. We attribute ...
This study presents a novel non-invasive equivalent dipole layer (EDL) based inverse electrocardiogr...
The variability of the inverse solution provided by electrocardiographic imaging (ECGI) is largely u...
ECG imaging was performed in humans to reconstruct ventricular activation patterns and localize thei...
The uniform double layer (UDL) source model can be used to estimate the activation sequence of the h...
Summarization: The characterization of cardiac electric activity by equivalent electric sources incl...
The sequences of activation and recovery of the heart have physiological and clinical relevance. We ...
The sequences of activation and recovery of the heart have physiological and clinical relevance. We ...
This thesis describes the application of the shortest path algorithm in the simulation of cardiac ac...
Electrocardiographic imaging is an imaging modality that has been introduced recently to help in vis...
Aims Non-invasive imaging of electrical activation requires high-density body surface potential mapp...
The inverse problem of electrocardiography is ill-posed. Errors in the model such as signal noise ca...
An inverse-forward approach was assessed to compute a 12-lead ECG from body surface potential mappin...
Electrical activity at the level of the heart muscle can be noninvasively reconstructed from body-su...
Noninvasive imaging of cardiac excitation using body surface potential mapping (BSPM) data and inver...
Objective: Noninvasive electrocardiographic imaging (ECGI) is used for obtaining high-resolution ima...
This study presents a novel non-invasive equivalent dipole layer (EDL) based inverse electrocardiogr...
The variability of the inverse solution provided by electrocardiographic imaging (ECGI) is largely u...
ECG imaging was performed in humans to reconstruct ventricular activation patterns and localize thei...
The uniform double layer (UDL) source model can be used to estimate the activation sequence of the h...
Summarization: The characterization of cardiac electric activity by equivalent electric sources incl...
The sequences of activation and recovery of the heart have physiological and clinical relevance. We ...
The sequences of activation and recovery of the heart have physiological and clinical relevance. We ...
This thesis describes the application of the shortest path algorithm in the simulation of cardiac ac...
Electrocardiographic imaging is an imaging modality that has been introduced recently to help in vis...
Aims Non-invasive imaging of electrical activation requires high-density body surface potential mapp...
The inverse problem of electrocardiography is ill-posed. Errors in the model such as signal noise ca...
An inverse-forward approach was assessed to compute a 12-lead ECG from body surface potential mappin...
Electrical activity at the level of the heart muscle can be noninvasively reconstructed from body-su...
Noninvasive imaging of cardiac excitation using body surface potential mapping (BSPM) data and inver...
Objective: Noninvasive electrocardiographic imaging (ECGI) is used for obtaining high-resolution ima...
This study presents a novel non-invasive equivalent dipole layer (EDL) based inverse electrocardiogr...
The variability of the inverse solution provided by electrocardiographic imaging (ECGI) is largely u...
ECG imaging was performed in humans to reconstruct ventricular activation patterns and localize thei...