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Journal of Biomechanics
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February 26, 2025
Connecting developed pressure - Preload relationship in ex-vivo beating heart with cellular sarcomere length - Tension relationship
Lei Fan, Vahid Ziaei-Rad, Jason Bazil, et al.
Research Square
|
April 17, 2026
A finite element computational framework coupling four-chamber heart mechanics with the systemic and pulmonary circulations
Vahid Ziaei-Rad, Sandra Hager, Kenneth S Campbell, et al.
Bioengineering (Basel, Switzerland)
|
May 4, 2026
Effects of Purkinje Fiber Conduction Block on Cardiac Pump Function: Computational Modeling Study
Sandra P Hager, Vahid Ziaei-Rad, Jenny S Choy, et al.
NPJ Digital Medicine
|
February 7, 2026
Rapid prediction of cardiac activation in the left ventricle with geometric deep learning: a step towards cardiac resynchronization therapy planning
Ehsan Naghavi, Haifeng Wang, Vahid Ziaei-Rad, et al.
NPJ Digital Medicine
|
May 18, 2026
Publisher Correction: Rapid prediction of cardiac activation in the left ventricle with geometric deep learning: a step towards cardiac resynchronization therapy planning
Ehsan Naghavi, Haifeng Wang, Vahid Ziaei-Rad, et al.
Page
of 1
Search research articles
Search
Showing results (1-10 of 5) with videos related to
Sort By:
Page
of 1
Journal of Biomechanics
|
February 26, 2025
Connecting developed pressure - Preload relationship in ex-vivo beating heart with cellular sarcomere length - Tension relationship
Lei Fan, Vahid Ziaei-Rad, Jason Bazil, et al.
Research Square
|
April 17, 2026
A finite element computational framework coupling four-chamber heart mechanics with the systemic and pulmonary circulations
Vahid Ziaei-Rad, Sandra Hager, Kenneth S Campbell, et al.
Bioengineering (Basel, Switzerland)
|
May 4, 2026
Effects of Purkinje Fiber Conduction Block on Cardiac Pump Function: Computational Modeling Study
Sandra P Hager, Vahid Ziaei-Rad, Jenny S Choy, et al.
NPJ Digital Medicine
|
February 7, 2026
Rapid prediction of cardiac activation in the left ventricle with geometric deep learning: a step towards cardiac resynchronization therapy planning
Ehsan Naghavi, Haifeng Wang, Vahid Ziaei-Rad, et al.
NPJ Digital Medicine
|
May 18, 2026
Publisher Correction: Rapid prediction of cardiac activation in the left ventricle with geometric deep learning: a step towards cardiac resynchronization therapy planning
Ehsan Naghavi, Haifeng Wang, Vahid Ziaei-Rad, et al.
Page
of 1