Laura Martinez-Mateu
Orcid: 0000-0003-0291-7683
According to our database1,
Laura Martinez-Mateu
authored at least 13 papers
between 2014 and 2023.
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Bibliography
2023
Manifold analysis of the P-wave changes induced by pulmonary vein isolation during cryoballoon procedure.
Comput. Biol. Medicine, March, 2023
2022
Atrial fibrosis identification with unipolar electrogram eigenvalue distribution analysis in multi-electrode arrays.
Medical Biol. Eng. Comput., 2022
Rotors Drift Toward and Stabilize in Low Power Regions in Heterogeneous Models of Atrial Fibrillation.
Proceedings of the Computing in Cardiology, 2022
2021
Directed graph mapping exceeds phase mapping in discriminating true and false rotors detected with a basket catheter in a complex in-silico excitation pattern.
Comput. Biol. Medicine, 2021
2020
Unipolar Electrogram Eigenvalue Distribution Analysis for the Identification of Atrial Fibrosis.
Proceedings of the Computing in Cardiology, 2020
Simulation Study of the Arrhythmogenic Effects of Two Missense Mutations in Human Atrial Fibrillation.
Proceedings of the Computing in Cardiology, 2020
2019
Far-field contributions in multi-electrodes atrial recordings blur distinction between anatomical and functional reentries and may cause imaginary phase singularities - A computational study.
Comput. Biol. Medicine, 2019
Proceedings of the 46th Computing in Cardiology, 2019
2018
Factors affecting basket catheter detection of real and phantom rotors in the atria: A computational study.
PLoS Comput. Biol., 2018
2016
Effect of Multi-Electrode Configurations on Accuracy of Rotor Detection in the Atria.
Proceedings of the Computing in Cardiology, CinC 2016, Vancouver, 2016
Analysis of in-silico Body Surface P-wave Integral Maps show important differences depending on the connections between Coronary Sinus and Left Atrium.
Proceedings of the Computing in Cardiology, CinC 2016, Vancouver, 2016
2015
Are Multi-electrode Arrays Able to Differentiate Anatomical from Functional Reentries in an Excitable Sheet?
Proceedings of the Computing in Cardiology, 2015
2014
Accurate Characterization of Rotor Activity during Atrial Fibrillation Depends on the Properties of the Multielectrode Grid.
Proceedings of the Computing in Cardiology, CinC 2014, 2014