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Elena Zappon

Showing results (1-10 of 5) with videos related to

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Computers in Biology and Medicine|March 9, 2025
Quantifying anatomically-based in-silico electrocardiogram variability for cardiac digital twinsElena Zappon, Matthias A F Gsell, Karli Gillette, et al.
Computer Methods and Programs in Biomedicine|June 4, 2026
PyMeshTool - A framework for building efficient automated image-based cardiac anatomical twinning workflows in PythonMatthias A F Gsell, Benedikt A Klöckl, Aurel Neic, et al.
Computers in Biology and Medicine|May 5, 2025
Integrating anatomy and electrophysiology in the healthy human heart: Insights from biventricular statistical shape analysis using universal coordinatesLore Van Santvliet, Elena Zappon, Matthias A F Gsell, et al.
Arxiv|February 20, 2025
An efficient end-to-end computational framework for the generation of ECG calibrated volumetric models of human atrial electrophysiologyElena Zappon, Luca Azzolin, Matthias A F Gsell, et al.
Medical Image Analysis|October 16, 2025
An efficient end-to-end computational framework for the generation of ECG calibrated volumetric models of human atrial electrophysiologyElena Zappon, Luca Azzolin, Matthias A F Gsell, et al.
Pageof 1

Showing results (1-10 of 5) with videos related to

Sort By:
Pageof 1
Computers in Biology and Medicine|March 9, 2025
Quantifying anatomically-based in-silico electrocardiogram variability for cardiac digital twinsElena Zappon, Matthias A F Gsell, Karli Gillette, et al.
Computer Methods and Programs in Biomedicine|June 4, 2026
PyMeshTool - A framework for building efficient automated image-based cardiac anatomical twinning workflows in PythonMatthias A F Gsell, Benedikt A Klöckl, Aurel Neic, et al.
Computers in Biology and Medicine|May 5, 2025
Integrating anatomy and electrophysiology in the healthy human heart: Insights from biventricular statistical shape analysis using universal coordinatesLore Van Santvliet, Elena Zappon, Matthias A F Gsell, et al.
Arxiv|February 20, 2025
An efficient end-to-end computational framework for the generation of ECG calibrated volumetric models of human atrial electrophysiologyElena Zappon, Luca Azzolin, Matthias A F Gsell, et al.
Medical Image Analysis|October 16, 2025
An efficient end-to-end computational framework for the generation of ECG calibrated volumetric models of human atrial electrophysiologyElena Zappon, Luca Azzolin, Matthias A F Gsell, et al.
Pageof 1