Zhinuo (Jenny) Wang : Publications
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[1]
In−silico human electro−mechanical ventricular modelling and simulation for drug−induced pro−arrhythmia and inotropic risk assessment
Francesca Margara‚ Zhinuo J Wang‚ Francesc Levrero−Florencio‚ Alfonso Santiago‚ Mariano Vázquez‚ Alfonso Bueno−Orovio and Blanca Rodriguez
In Progress in biophysics and molecular biology. Vol. 159. Pages 58–74. 2021.
Details about In−silico human electro−mechanical ventricular modelling and simulation for drug−induced pro−arrhythmia and inotropic risk assessment | BibTeX data for In−silico human electro−mechanical ventricular modelling and simulation for drug−induced pro−arrhythmia and inotropic risk assessment
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[2]
Inference of ventricular activation properties from non−invasive electrocardiography
Julia Camps‚ Brodie Lawson‚ Christopher Drovandi‚ Ana Minchole‚ Zhinuo Jenny Wang‚ Vicente Grau‚ Kevin Burrage and Blanca Rodriguez
In Medical Image Analysis. Pages 102143. 2021.
Details about Inference of ventricular activation properties from non−invasive electrocardiography | BibTeX data for Inference of ventricular activation properties from non−invasive electrocardiography
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[3]
COSMAS: a lightweight toolbox for cardiac optical mapping analysis
Jakub Tomek‚ Zhinuo Jenny Wang‚ Rebecca−Ann Beatrice Burton‚ Neil Herring and Gil Bub
In Scientific reports. Vol. 11. No. 1. Pages 1–17. 2021.
Details about COSMAS: a lightweight toolbox for cardiac optical mapping analysis | BibTeX data for COSMAS: a lightweight toolbox for cardiac optical mapping analysis
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[4]
Human biventricular electromechanical simulations on the progression of electrocardiographic and mechanical abnormalities in post−myocardial infarction
Zhinuo J Wang‚ Alfonso Santiago‚ Xin Zhou‚ Lei Wang‚ Francesca Margara‚ Francesc Levrero−Florencio‚ Arka Das‚ Chris Kelly‚ Erica Dall'Armellina‚ Mariano Vazquez and others
In EP Europace. Vol. 23. No. Supplement_1. Pages i143–i152. 2021.
Details about Human biventricular electromechanical simulations on the progression of electrocardiographic and mechanical abnormalities in post−myocardial infarction | BibTeX data for Human biventricular electromechanical simulations on the progression of electrocardiographic and mechanical abnormalities in post−myocardial infarction
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[5]
Efficient estimation of load−free left ventricular geometry and passive myocardial properties using principal component analysis
Zhinuo J Wang‚ Vicky Y Wang‚ Thiranja P Babarenda Gamage‚ Vijayaraghavan Rajagopal‚ J Jane Cao‚ Poul MF Nielsen‚ Chris P Bradley‚ Alistair A Young and Martyn P Nash
In International journal for numerical methods in biomedical engineering. Vol. 36. No. 3. Pages e3313. 2020.
Details about Efficient estimation of load−free left ventricular geometry and passive myocardial properties using principal component analysis | BibTeX data for Efficient estimation of load−free left ventricular geometry and passive myocardial properties using principal component analysis
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[6]
Left Ventricular Diastolic Myocardial Stiffness and End−Diastolic Myofibre Stress in Human Heart Failure Using Personalised Biomechanical Analysis
Zhinuo J. Wang‚ Vicky Y. Wang‚ Chris P. Bradley‚ Martyn P. Nash‚ Alistair A. Young and J. Jane Cao
In Journal of Cardiovascular Translational Research. Vol. 11. No. 4. Pages 346–356. August, 2018.
Details about Left Ventricular Diastolic Myocardial Stiffness and End−Diastolic Myofibre Stress in Human Heart Failure Using Personalised Biomechanical Analysis | BibTeX data for Left Ventricular Diastolic Myocardial Stiffness and End−Diastolic Myofibre Stress in Human Heart Failure Using Personalised Biomechanical Analysis | DOI (10.1007/s12265-018-9816-y) | Link to Left Ventricular Diastolic Myocardial Stiffness and End−Diastolic Myofibre Stress in Human Heart Failure Using Personalised Biomechanical Analysis
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[7]
Quantifying passive myocardial stiffness and wall stress in heart failure patients using personalized ventricular mechanics
Zhinuo Jenny Wang‚ Vicky Y. Wang‚ Chris P. Bradley‚ Martyn P. Nash‚ Alistair Young and Jie J. Cao
In Journal of Cardiovascular Magnetic Resonance. Vol. 18. No. 1. Pages O17. January, 2016.
Details about Quantifying passive myocardial stiffness and wall stress in heart failure patients using personalized ventricular mechanics | BibTeX data for Quantifying passive myocardial stiffness and wall stress in heart failure patients using personalized ventricular mechanics | DOI (10.1186/1532-429X-18-S1-O17) | Link to Quantifying passive myocardial stiffness and wall stress in heart failure patients using personalized ventricular mechanics
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[8]
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 Blake‚ Chris Bradley‚ Sebastian Castro‚ Andrew Crozier‚ Marco Favino and others
In Proceedings of the Royal Society A: Mathematical‚ Physical and Engineering Sciences. Vol. 471. No. 2184. Pages 20150641. 2015.
Details about Verification of cardiac mechanics software: benchmark problems and solutions for testing active and passive material behaviour | BibTeX data for Verification of cardiac mechanics software: benchmark problems and solutions for testing active and passive material behaviour
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[9]
Identifying Myocardial Mechanical Properties from MRI Using an Orthotropic Constitutive Model
Zhinuo J. Wang‚ Vicky Y. Wang‚ Sue−Mun Huang‚ Justyna A. Niestrawska‚ Alistair A. Young and Martyn P. Nash
In Oscar Camara‚ Tommaso Mansi‚ Mihaela Pop‚ Kawal Rhode‚ Maxime Sermesant and Alistair Young, editors, Statistical Atlases and Computational Models of the Heart − Imaging and Modelling Challenges. Pages 135–144. Cham. 2015. Springer International Publishing.
Details about Identifying Myocardial Mechanical Properties from MRI Using an Orthotropic Constitutive Model | BibTeX data for Identifying Myocardial Mechanical Properties from MRI Using an Orthotropic Constitutive Model