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Antonio Berruezo
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2020 – today
- 2024
- [i2]Dolors Serra, Pau Romero, Paula Franco, Ignacio Bernat, Miguel Lozano, Ignacio García-Fernández, David Soto, Antonio Berruezo, Oscar Camara, Rafael Sebastián:
Unsupervised stratification of patients with myocardial infarction based on imaging and in-silico biomarkers. CoRR abs/2409.06526 (2024) - 2023
- [c20]Álvaro José Bocanegra, Diego Penela, Rafael Sebastián, Guillermo Jiménez-Pérez, Andrea Saglietto, David Soto-Iglesias, Antonio Berruezo, Gemma Piella, Oscar Camara:
Automatic Prediction of the Origin in Outflow Tract Ventricular Arrhythmias with Machine Learning Combining Clinical Data and Electrocardiogram Analysis. CinC 2023: 1-4 - [c19]Dolors Serra
, Paula Franco, Pau Romero, Giada S. Romitti
Assessment of Risk for Ventricular Tachycardia based on Extensive Electrophysiology Simulations. EMBC 2023: 1-4 - [c18]Dolors Serra
Patient Stratification Based on Fast Simulation of Cardiac Electrophysiology on Digital Twins. STACOM@MICCAI 2023: 35-43 - 2022
- [c17]Javier Villar, Juan F. Gomez, David Soto-Iglesias, Diego Penela, Antonio Berruezo, Beatriz Trénor:
In-silico Inducibility of Ventricular Tachycardia in Patient-Specific Post-Infarction Ventricular Models. CinC 2022: 1-4 - [c16]Dolors Serra
Personalized Fast Electrophysiology Simulations to Evaluate Arrhythmogenicity of Ventricular Slow Conduction Channels. STACOM@MICCAI 2022: 56-64 - 2021
- [c15]Dolors Serra
Arrhythmic3D: a fast automata-based tool to simulate and assess arrhythmia risk in 3D ventricular models. CinC 2021: 1-4 - [c14]Dolors Serra
Simplified Electrophysiology Modeling Framework to Assess Ventricular Arrhythmia Risk in Infarcted Patients. FIMH 2021: 531-539
2010 – 2019
- 2019
- [c13]Rubén Doste
Predicting the Origin of Outflow Tract Ventricular Arrhythmias Using Machine Learning Techniques Trained With Patient-Specific Electrophysiological Simulations. CinC 2019: 1-4 - 2018
- [i1]Rubén Doste, David Soto-Iglesias, Gabriel Bernardino, Alejandro Alcaine, Rafael Sebastián, Sophie Giffard-Roisin, Maxime Sermesant, Antonio Berruezo, Damian Sánchez-Quintana, Oscar Camara:
A rule-based method to model myocardial fiber orientation in cardiac biventricular geometries with outflow tracts. CoRR abs/1809.08297 (2018) - 2017
- [c12]Thomas S. Pheiffer, David Soto-Iglesias, Yaroslav Nikulin, Tiziano Passerini, Julian Krebs, Marta Sitges, Antonio Berruezo, Oscar Camara
Estimation of Local Conduction Velocity from Myocardium Activation Time: Application to Cardiac Resynchronization Therapy. FIMH 2017: 239-248 - [c11]Rubén Doste
A Rule-Based Method to Model Myocardial Fiber Orientation for Simulating Ventricular Outflow Tract Arrhythmias. FIMH 2017: 344-353 - 2016
- [j5]David Soto-Iglesias, Constantine Butakoff
Integration of electro-anatomical and imaging data of the left ventricle: An evaluation framework. Medical Image Anal. 32: 131-144 (2016) - [c10]David Soto-Iglesias, Diego Penela
Quasi-Conformal Technique for Integrating and Validating Myocardial Tissue Characterization in MRI with Ex-Vivo Human Histological Data. STACOM@MICCAI 2016: 172-181 - 2015
- [j4]Nicolas Duchateau
Quantification of local changes in myocardial motion by diffeomorphic registration via currents: Application to paced hypertrophic obstructive cardiomyopathy in 2D echocardiographic sequences. Medical Image Anal. 19(1): 203-219 (2015) - [j3]Rubén Cárdenes, Rafael Sebastián
Estimation of Purkinje trees from electro-anatomical mapping of the left ventricle using minimal cost geodesics. Medical Image Anal. 24(1): 52-62 (2015) - [c9]David Soto-Iglesias, Nicolas Duchateau
Quantitative Analysis of Lead Position vs. Correction of Electrical Dyssynchrony in an Experimental Model of LBBB/CRT. FIMH 2015: 74-82 - 2014
- [j2]Alejandro Alcaine
A Wavelet-Based Electrogram Onset Delineator for Automatic Ventricular Activation Mapping. IEEE Trans. Biomed. Eng. 61(12): 2830-2839 (2014) - [c8]Alejandro Alcaine, David Soto-Iglesias, David Andreu, Juan Acosta, Antonio Berruezo, Pablo Laguna, Oscar Camara, Juan Pablo Martínez:
A Morphology-Based Spatial Consistency Algorithm to Improve EGM Delineation in Ventricular Electroanatomical Mapping. CinC 2014: 125-128 - [c7]Rubén Cárdenes, Rafael Sebastián, Antonio Berruezo, Oscar Camara:
Inverse Estimation of Left Ventricular Purkinje Tree Pathways from Sequence of Depolarization. CinC 2014: 677-680 - 2013
- [j1]Antonio R. Porras
Interventional Endocardial Motion Estimation from Electroanatomical Mapping Data: Application to Scar Characterization. IEEE Trans. Biomed. Eng. 60(5): 1217-1224 (2013) - [c6]Alejandro Alcaine, David Soto-Iglesias, David Andreu, Juan Fernandez-Armenta, Antonio Berruezo, Pablo Laguna, Oscar Camara, Juan Pablo Martínez:
Wavelet-Based Electrogram Onset Identification for Ventricular Electroanatomical Mapping. CinC 2013: 615-618 - [c5]David Soto-Iglesias, Nicolas Duchateau, Constantine Butakoff, David Andreu, Juan Fernandez-Armenta, Antonio Berruezo, Marta Sitges, Oscar Camara:
Analyzing Electrical Patterns in an Experimental Swine Model of Dyssynchrony and CRT. CinC 2013: 623-626 - [c4]David Soto-Iglesias, Constantine Butakoff
Evaluation of Different Mapping Techniques for the Integration of Electro-Anatomical Voltage and Imaging Data of the Left Ventricle. FIMH 2013: 391-399 - [c3]Rubén Cárdenes, Rafael Sebastián
Estimation of Electrical Pathways Finding Minimal Cost Paths from Electro-Anatomical Mapping of the Left Ventricle. STACOM 2013: 220-227 - 2012
- [c2]Antonio R. Porras
Endocardial motion estimation from electro-anatomical data. ISBI 2012: 282-285 - 2011
- [c1]Antonio R. Porras
Cardiac Deformation from Electro-Anatomical Mapping Data: Application to Scar Characterization. FIMH 2011: 47-54
Coauthor Index
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