International audienceThis work is based on the registration and fusion of multimodality data for cardiac resynchronization therapy (CRT) optimization. The goal is to provide local descriptors of the electro-mechanical (EM) coupling of the heart, using anatomical, electrical and mechanical data acquired from CT-scan volumes (CT), speckle tracking echocardiography (STE) and electro-anatomical mapping (EAM). In previous works, we have presented registration methods to place EAM, CT and STE in the same geometrical reference system. In order to extract EM descriptors, data resulting from EAM and STE should be synchronized. This is done according to the ECGs acquired during both acquisitions. However, the number of ECG derivations as well as the...
International audienceThis manuscript describes our recent developments towards better understanding...
This work concerns cardiac characterization, a major methodological and clinical issue, both to impr...
International audienceThe synchronization and registration of dynamic computed tomography (CT) and m...
International audienceThis work is based on the registration and fusion of multimodality data for ca...
International audienceCardiac Resynchronization Therapy (CRT) has been shown to improve cardiovascul...
This work is based on the registration and the fusion of multi-modality data for cardiac resynchroni...
International audienceIn this work, we sought to assist the optimization of Cardiac Resynchronizatio...
International audienceCardiac Resynchronization Therapy (CRT) can be optimized by the fusion of anat...
International audienceCardiac Resynchronization Therapy is a treatment for bi-ventricular asynchroni...
International audienceGoal: Non-invasive cardiac electrophysiology (EP) model personalisation has ra...
International audienceThe purpose of this work is to include tissue and dynamic information from car...
Electro-anatomical maps (EAMs) are commonly acquired in clinical routine for guiding ablation therap...
Heart mapping systems allow approximate reconstruction of the heart chamber geometry which is used a...
International audienceThis manuscript describes our recent developments towards better understanding...
This work concerns cardiac characterization, a major methodological and clinical issue, both to impr...
International audienceThe synchronization and registration of dynamic computed tomography (CT) and m...
International audienceThis work is based on the registration and fusion of multimodality data for ca...
International audienceCardiac Resynchronization Therapy (CRT) has been shown to improve cardiovascul...
This work is based on the registration and the fusion of multi-modality data for cardiac resynchroni...
International audienceIn this work, we sought to assist the optimization of Cardiac Resynchronizatio...
International audienceCardiac Resynchronization Therapy (CRT) can be optimized by the fusion of anat...
International audienceCardiac Resynchronization Therapy is a treatment for bi-ventricular asynchroni...
International audienceGoal: Non-invasive cardiac electrophysiology (EP) model personalisation has ra...
International audienceThe purpose of this work is to include tissue and dynamic information from car...
Electro-anatomical maps (EAMs) are commonly acquired in clinical routine for guiding ablation therap...
Heart mapping systems allow approximate reconstruction of the heart chamber geometry which is used a...
International audienceThis manuscript describes our recent developments towards better understanding...
This work concerns cardiac characterization, a major methodological and clinical issue, both to impr...
International audienceThe synchronization and registration of dynamic computed tomography (CT) and m...