0000000000682476

AUTHOR

Beatriz Trenor

showing 2 related works from this author

Prediction of CRT Activation Sequence by Personalization of Biventricular Models from Electroanatomical Maps

2020

[EN] Optimization of lead placement and interventricular delay settings in patients under cardiac resynchronization therapy is a complex task that might benefit from prior information based on models. Biophysical models can be used to predict the sequence of electrical heart activation in a patient given a set of parameters which should be personalized to the patient. In this paper, we use electroanatomical maps to personalize the endocardial activation of the right ventricle, and the different tissue conductivities in a pig model with left bundle branch block, to reproduce personalized biventricular activations. Following, we tested the personalized heart model by virtually simulating card…

Cardiac resynchronization therapySequencemedicine.medical_specialtyComputer scienceLeft bundle branch blockmedicine.medical_treatmentCardiac resynchronization therapyPig modelmedicine.diseasePersonalizationTECNOLOGIA ELECTRONICATissue properties personalizationmedicine.anatomical_structureVentricleInternal medicinemedicineCardiology03.- Garantizar una vida saludable y promover el bienestar para todos y todas en todas las edadesIn patientLead PlacementBiophysical modeling
researchProduct

Optimization of Lead Placement in the Right Ventricle During Cardiac Resynchronization Therapy. A Simulation Study

2019

[EN] Patients suffering from heart failure and left bundle branch block show electrical ventricular dyssynchrony causing an abnormal blood pumping. Cardiac resynchronization therapy (CRT) is recommended for these patients. Patients with positive therapy response normally present QRS shortening and an increased left ventricle (LV) ejection fraction. However, around one third do not respond favorably. Therefore, optimal location of pacing leads, timing delays between leads and/or choosing related biomarkers is crucial to achieve the best possible degree of ventricular synchrony during CRT application. In this study, computational modeling is used to predict the optimal location and delay of p…

0301 basic medicineOptimizationcomputational modelingmedicine.medical_specialtyQRS durationPhysiologymedicine.medical_treatmentCardiac resynchronization therapycardiac resynchronization therapyheart failureHeart failureLBBB030204 cardiovascular system & hematologylcsh:PhysiologyTECNOLOGIA ELECTRONICA03 medical and health sciencesQRS complex0302 clinical medicinePhysiology (medical)Internal medicinemedicinecardiovascular diseasesOriginal ResearchCardiac resynchronization therapylcsh:QP1-981business.industryComputational modelingmedicine.disease030104 developmental biologymedicine.anatomical_structureVentricleHeart failureCardiologycardiovascular systemLead PlacementbusinessoptimizationFrontiers in Physiology
researchProduct