Search results for "VOLUME CONDUCTOR"

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Electrocardiographic Imaging for Atrial Fibrillation: A Perspective From Computer Models and Animal Experiments to Clinical Value

2021

[EN] Electrocardiographic imaging (ECGI) is a technique to reconstruct non-invasively the electrical activity on the heart surface from body-surface potential recordings and geometric information of the torso and the heart. ECGI has shown scientific and clinical value when used to characterize and treat both atrial and ventricular arrhythmias. Regarding atrial fibrillation (AF), the characterization of the electrical propagation and the underlying substrate favoring AF is inherently more challenging than for ventricular arrhythmias, due to the progressive and heterogeneous nature of the disease and its manifestation, the small volume and wall thickness of the atria, and the relatively large…

Cardiac arrhythmiasmedicine.medical_specialtyVOLUME CONDUCTORPhysiologymedicine.medical_treatmentROTORSCatheter ablationReview030204 cardiovascular system & hematologyTECNOLOGIA ELECTRONICA03 medical and health sciencesPERSISTENT0302 clinical medicinePhysiology (medical)Internal medicineMAGNETIC-RESONANCEmedicineQP1-981PULMONARY VEIN ISOLATIONSistema cardiovascularImatges tridimensionals en medicinabusiness.industrySmall volumeECGAF characterizationPerspective (graphical)Electrocardiographic imagingAtrial fibrillationmedicine.diseaseAtrial fibrillationDOMINANT FREQUENCYKey factorsElectrocardiographic imagingClinical valueCardiologyEnginyeria biomèdicaCatheter ablationbusinessWall thicknessTORSO INHOMOGENEITIESINVERSE PROBLEMInverse solutionTreatment guidance030217 neurology & neurosurgery
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Detailed Anatomical and Electrophysiological Models of Human Atria and Torso for the Simulation of Atrial Activation

2015

Atrial arrhythmias, and specifically atrial fibrillation (AF), induce rapid and irregular activation patterns that appear on the torso surface as abnormal P-waves in electrocardiograms and body surface potential maps (BSPM). In recent years both P-waves and the BSPM have been used to identify the mechanisms underlying AF, such as localizing ectopic foci or high-frequency rotors. However, the relationship between the activation of the different areas of the atria and the characteristics of the BSPM and P-wave signals are still far from being completely understood. In this work we developed a multi-scale framework, which combines a highly-detailed 3D atrial model and a torso model to study th…

Models Anatomicmedicine.medical_specialtyBODY-SURFACEVOLUME CONDUCTORCANINE RIGHTlcsh:MedicineTECNOLOGIA ELECTRONICAInternal medicineAtrial FibrillationBody surfacemedicineHumansSinus rhythmHeart Atrialcsh:ScienceFibrillationMultidisciplinaryP-WAVEmedicine.diagnostic_testbusiness.industrylcsh:RBody Surface Potential MappingP waveTorsoAtrial fibrillationAnatomyTorsoAtrial Functionmedicine.diseaseHUMAN HEARTRATE-DEPENDENCEElectrophysiologymedicine.anatomical_structurecardiovascular systemCardiologylcsh:QFIBRILLATIONmedicine.symptomSINUS RHYTHMbusinessElectrocardiographyCONDUCTION-VELOCITYResearch ArticleACTION-POTENTIALS
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