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Daniel E. Hurtado
Researcher at Pontifical Catholic University of Chile
Publications - 65
Citations - 1487
Daniel E. Hurtado is an academic researcher from Pontifical Catholic University of Chile. The author has contributed to research in topics: Lung injury & Medicine. The author has an hindex of 18, co-authored 55 publications receiving 915 citations. Previous affiliations of Daniel E. Hurtado include Millennium Science Initiative.
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Physics-informed neural networks for cardiac activation mapping
TL;DR: A physics-informed neural network for cardiac activation mapping that accounts for the underlying wave propagation dynamics and quantifies the epistemic uncertainty associated with these predictions to open the door toward physics-based electro-anatomic mapping.
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Generating Purkinje networks in the human heart.
TL;DR: The results underpin the importance of the Purkinje network in realistic human heart simulations, and the potential to support the design of personalized strategies for single- or bi-ventricular pacing, radiofrequency ablation, and cardiac defibrillation with the common goal to restore a normal heart rhythm.
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Verification of cardiac mechanics software: benchmark problems and solutions for testing active and passive material behaviour
Sander Land,Viatcheslav Gurev,Sander Arens,Christoph M. Augustin,Lukas Baron,Robert C. Blake,Chris P. Bradley,Sebastián Castro,Andrew Crozier,Marco Favino,Thomas E. Fastl,Thomas Fritz,Hao Gao,Alessio Gizzi,Boyce E. Griffith,Daniel E. Hurtado,Rolf Krause,Xiaoyu Luo,Martyn P. Nash,Simone Pezzuto,Gernot Plank,Simone Rossi,Daniel Ruprecht,Gunnar Seemann,Nicolas P. Smith,Joakim Sundnes,J. Jeremy Rice,Natalia A. Trayanova,Dafang Wang,Zhinuo J. Wang,Steven A. Niederer +30 more
TL;DR: These benchmark problems test the ability to accurately simulate pressure-type forces that depend on the deformed objects geometry, anisotropic and spatially varying material properties similar to those seen in the left ventricle and active contractile forces.
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A physiological approach to understand the role of respiratory effort in the progression of lung injury in SARS-CoV-2 infection.
Pablo Cruces,Jaime Retamal,Daniel E. Hurtado,Benjamín Erranz,Pablo Iturrieta,Carlos González,Franco Díaz +6 more
TL;DR: The physiological basis of P-SILI is described and experimental data is shown to comprehend the role of regional strain and heterogeneity in lung injury due to increased work of breathing.
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The importance of mechano-electrical feedback and inertia in cardiac electromechanics.
TL;DR: This study assesses the influence of mass in electromechanical simulations, using a fully coupled finite element model, to better understand the importance of mechanoelectrical feedback and inertia in cardiac electromechanics.