C++ code for Zhang, Wu et al. Enhanced Ca2+-Driven Arrhythmias in Female Patients with Atrial Fibrillation: Insights from Computational Modeling.
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ReadMe.md: this file -
sex_diff_model_APclamp: Baseline code -
```Drug_RyR_restore``: Intervention simulation (RyR Down)
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Drug_flec: Intervention simulation (Flecainide) -
build_population.sh: Script for building population simulation -
run_all.sh: Script for running population simulation
Operating system: Linux Mint 20.3 UnaC++ version: C++11C++ compiler: C++ icpcToolkit: Intel® oneAPI Base Toolkit, Intel® HPC Toolkit
Xianwei Zhang, Yixuan Wu, Charlotte Smith, William E Louch, Stefano Morotti, Dobromir Dobrev, Eleonora Grandi, Haibo Ni. Enhanced Ca2+-Driven Arrhythmias in Female Patients with Atrial Fibrillation: Insights from Computational Modeling. JACC: Clinical Electrophysiology. https://doi.org/10.1016/j.jacep.2024.07.020
Zhang, Xianwei, Haibo Ni, Stefano Morotti, Charlotte E. R. Smith, Daisuke Sato, William E. Louch, Andrew G. Edwards, and Eleonora Grandi. Mechanisms of Spontaneous Ca2+ Release-Mediated Arrhythmia in a Novel 3D Human Atrial Myocyte Model: I. Transverse-Axial Tubule Variation. The Journal of Physiology. https://doi.org/10.1113/JP283363.
Zhang, Xianwei, Charlotte E. R. Smith, Stefano Morotti, Andrew G. Edwards, Daisuke Sato, William E. Louch, Haibo Ni, and Eleonora Grandi. Mechanisms of Spontaneous Ca2+ Release-Mediated Arrhythmia in a Novel 3D Human Atrial Myocyte Model: II. Ca2+-Handling Protein Variation. The Journal of Physiology. https://doi.org/10.1113/JP283602.
Please cite the above papers when using this model.