Siri Kallhovd

Siri Kallhovd

External collaborator

Publications

Simula-affiliated publications listed

2019

Journal Articles

S. Kallhovd, J. Sundnes and S. Wall

Sensitivity of stress and strain calculations to passive material parameters in cardiac mechanical models using unloaded geometries

Computer Methods in Biomechanics and Biomedical Engineering

2017

Journal Articles

S. Kallhovd, M. Maleckar and M. E. Rognes

Inverse estimation of cardiac activation times via gradient-based optimization

International Journal for Numerical Methods in Biomedical Engineering

PhD Thesis

S. Kallhovd

Computational tools for clinically driven models of cardiac electro-mechanics

University of Oslo

2016

Talks, invited

J. Sundnes, S. Kallhovd and S. Wall

Impact of material parameter uncertainty on stress in patient specific models of the heart

SIAM Conference on uncertainty quantification, Lausanne, Switzerland

Talks, contributed

J. Sundnes, S. Kallhovd and S. Wall

Impact of material parameter variations on stress in patient specific models of the heart

World Congress on Computational Mechanics, Seoul, South Korea

2015

Proceedings, refereed

S. Kallhovd, S. U. Gjerald, S. Wall, J. Saberniak, K. Haugaa and M. Maleckar

Localization and not extent of fibrofatty infiltratio is the primary factor determining conduction disturbance in a computational model of arrhythmogenic cardiomyopathy

2015 E-Health and Bioengineering Conference (EHB)

S. Kallhovd, S. U. Gjerald, O. Maennel, J. Saberniak, K. Haugaa and M. Maleckar

Localization and not extent of fibrofatty infiltration is the primary factor determining conduction disturbance in a computational model of arrhythmogenic cardiomyopathy

E-Health and Bioengineering Conference (EHB)

Talks, contributed

S. Kallhovd, J. Sundnes and S. Wall

Significance of passive material parameters in mechanical models of the heart

Lugano, Switzerland

2014

Posters

S. Kallhovd, M. null, S. U. Gjerald, J. Saberniak, F. Sheikh, H. Haugaa and M. Maleckar

Localization and not extent of fibrofatty infiltration is the primary factor determining conduction disturbance in a computational model of arrhythomogenic cardiomyopathy

Biophysical Society 58th Annual Meeting

S. Kallhovd, M. null, S. U. Gjerald, J. Saberniak, F. Sheikh, H. Haugaa and M. Maleckar

Localization and not extent of fibrofatty infiltration is the primary factor determining conduction disturbance in a computational model of arrhythomogenic cardiomyopathy

Copenhagen Meeting on Cardiac Arrhythmia, May 19-22, 2014

Talks, contributed

S. Kallhovd, M. null, S. U. Gjerald, J. Saberniak, F. Sheikh, H. Haugaa and M. Maleckar

Localization and not extent of fibrofatty infiltration is the primary factor determining conduction disturbance in a computational model of arrhythomogenic cardiomyopathy

VPH 2014, Trondheim, Norway