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Cardiac Motion Modeling with Parallel Transport and Shape Splines

Abstract : In cases of pressure or volume overload, probing cardiac function may be difficult because of the interactions between shape and deformations. In this work, we use the LDDMM framework and parallel transport to estimate and reorient deformations of the right ventricle. We then propose a normalization procedure for the amplitude of the deformation, and a second-order spline model to represent the full cardiac contraction. The method is applied to 3D meshes of the right ventricle extracted from echocardiographic sequences of 314 patients divided into three disease categories and a control group. We find significant differences between pathologies in the model parameters, revealing insights into the dynamics of each disease.
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Contributor : Nicolas Guigui <>
Submitted on : Wednesday, February 17, 2021 - 10:51:18 AM
Last modification on : Friday, February 19, 2021 - 3:27:53 AM
Long-term archiving on: : Tuesday, May 18, 2021 - 6:17:51 PM


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  • HAL Id : hal-03142196, version 1
  • ARXIV : 2102.08665


Nicolas Guigui, Pamela Moceri, Maxime Sermesant, Xavier Pennec. Cardiac Motion Modeling with Parallel Transport and Shape Splines. International Symposium on Biological Imaging, Apr 2021, Nice, France. ⟨hal-03142196⟩



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