A 3D Finite Element Model of the Face for Simulation in Plastic and Maxillo-Facial Surgery

This paper introduces a new Finite Element biomechanical model of the human face, which has been developed to be integrated into a simulator for plastic and maxillo-facial surgery. The idea is to be able to predict, from an aesthetic and functional point of view, the deformations of a patient face, resulting from repositioning of the maxillary and mandibular bone structures. This work will complete the simulator for bone-repositioning diagnosis that has been developed by the laboratory. After a description of our research project context, each step of the modeling is precisely described: the continuous and elastic structure of the skin tissues, the orthotropic muscular fibers and their insertions points, and the functional model of force generation. First results of face deformations due to muscles activations are presented. They are qualitatively compared to the functional studies provided by the literature on face muscles roles and actions.

[1]  N. Isshiki Physiology of Speech Production , 1989 .

[2]  Y. Payan,et al.  A Simulator for Maxillofacial Surgery Integrating 3D Cephalometry and Orthodontia , 2000 .

[3]  Y Payan,et al.  The mesh-matching algorithm: an automatic 3D mesh generator for finite element structures. , 2000, Journal of biomechanics.

[4]  Francis A. Duck,et al.  Physical properties of tissue : a comprehensive reference book , 1990 .

[5]  Thierry Guiard-Marigny,et al.  3D Models of the Lips and Jaw for Visual Speech Synthesis , 1997 .

[6]  Markus H. Gross,et al.  Emotion Editing using Finite Elements , 1998, Comput. Graph. Forum.

[7]  Alex A. Kane,et al.  Computer-Aided Craniofacial Surgery , 2001 .

[8]  Bernd Girod,et al.  Anatomy-based facial tissue modeling using the finite element method , 1996, Proceedings of Seventh Annual IEEE Visualization '96.

[9]  R Kikinis,et al.  Deformable modeling of facial tissue for craniofacial surgery simulation. , 1998, Computer aided surgery : official journal of the International Society for Computer Aided Surgery.

[10]  Stephane Cotin,et al.  Real Time Volumetric Deformable Models for Surgery Simulation , 1996, VBC.

[11]  G. Weismer,et al.  Evaluation of a reiterant force-impulse task in the tongue. , 1994, Journal of speech and hearing research.

[12]  J. Ohayon,et al.  Fibre Orientation in Human Fetal Heart and Ventricular Mechanics : A Small Perturbation Analysis. , 1999, Computer methods in biomechanics and biomedical engineering.