Complete Real-Time Liver Model Including Glisson's Capsule, Vascularization and Parenchyma

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Authors

PETERLÍK Igor GOLEMBIOVSKÝ Tomáš DURIEZ Christian COTIN Stephane

Year of publication 2014
Type Article in Proceedings
Conference Medicine Meets Virtual Reality 21: NextMed/MMVR21
MU Faculty or unit

Institute of Computer Science

Citation
Doi http://dx.doi.org/10.3233/978-1-61499-375-9-312
Field Informatics
Keywords biomechanical modeling; real-time; finite element method;
Description Accurate biomechanical modeling of liver is of paramount interest in pre-operative planning or computer-aided per-operative guidance. Since the liver is an organ composed of three different components (parenchyma, vascularization and Glisson’s capsule), an efficient and realistic simulation of its behaviour is a challenging task. In this paper we propose a complete model of liver where each component is modelled with different type of finite elements chosen according to the nature and mechanical properties of the component. The elements of different types are cou- pled via mechanical mapping encoded in the global stiffness matrix. In the result section, we first focus on simulation of Glisson’s capsule using constant-strain triangular elements: we compare the model to a detailed non-real- time model and also reproduce previously published aspiration test showing the im- portance of the capsule. Finally, we demonstrate that the proposed complete liver model can be used in a real-time simulation.
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