[HTML][HTML] Computational modeling of cardiac electrophysiology and arrhythmogenesis: toward clinical translation
The complexity of cardiac electrophysiology, involving dynamic changes in numerous
components across multiple spatial (from ion channel to organ) and temporal (from …
components across multiple spatial (from ion channel to organ) and temporal (from …
How computer simulations of the human heart can improve anti‐arrhythmia therapy
NA Trayanova, KC Chang - The Journal of physiology, 2016 - Wiley Online Library
Over the last decade, the state‐of‐the‐art in cardiac computational modelling has
progressed rapidly. The electrophysiological function of the heart can now be simulated with …
progressed rapidly. The electrophysiological function of the heart can now be simulated with …
Computational modeling of cardiac electrophysiology and arrhythmogenesis: toward clinical translation
The complexity of cardiac electrophysiology, involving dynamic changes in numerous
components across multiple spatial (from ion channel to organ) and temporal (from …
components across multiple spatial (from ion channel to organ) and temporal (from …
Advances in modeling ventricular arrhythmias: from mechanisms to the clinic
NA Trayanova, PM Boyle - Wiley Interdisciplinary Reviews …, 2014 - Wiley Online Library
Modern cardiovascular research has increasingly recognized that heart models and
simulation can help interpret an array of experimental data and dissect important …
simulation can help interpret an array of experimental data and dissect important …
Patterned illumination techniques in optogenetics: an insight into decelerating murine hearts
Much has been reported about optogenetic based cardiac arrhythmia treatment and the
corresponding characterization of photostimulation parameters, but still, our capacity to …
corresponding characterization of photostimulation parameters, but still, our capacity to …
High-frequency stimulation of excitable cells and networks
SH Weinberg - PLoS One, 2013 - journals.plos.org
High-frequency (HF) stimulation has been shown to block conduction in excitable cells
including neurons and cardiac myocytes. However, the precise mechanisms underlying …
including neurons and cardiac myocytes. However, the precise mechanisms underlying …
New insights into defibrillation of the heart from realistic simulation studies
NA Trayanova, LJ Rantner - Europace, 2014 - academic.oup.com
Cardiac defibrillation, as accomplished nowadays by automatic, implantable devices,
constitutes the most important means of combating sudden cardiac death. Advancing our …
constitutes the most important means of combating sudden cardiac death. Advancing our …
Computational rabbit models to investigate the initiation, perpetuation, and termination of ventricular arrhythmia
Current understanding of cardiac electrophysiology has been greatly aided by
computational work performed using rabbit ventricular models. This article reviews the …
computational work performed using rabbit ventricular models. This article reviews the …
Optimal entrainment for removal of pinned spiral waves
Cardiac fibrillation is caused by self-sustaining spiral waves that occur in the myocardium,
some of which can be pinned to anatomical obstacles, making them more difficult to …
some of which can be pinned to anatomical obstacles, making them more difficult to …
Spiral wave drift induced by high-frequency forcing. Parallel simulation in the Luo–Rudy anisotropic model of cardiac tissue
T Epanchintsev, S Pravdin, A Panfilov - … , Wuxi, China, June 11–13, 2018 …, 2018 - Springer
Non-linear waves occur in various physical, chemical and biological media. One of the most
important examples is electrical excitation waves in the myocardium, which initiate …
important examples is electrical excitation waves in the myocardium, which initiate …