Abstract
This paper proposes a framework to simulate soft tissue cuts for interventional surgery simulation. A strained status of soft tissues is modeled as internal tension between adjacent vertices in a particle based model. Both remodeling particle systems and an adaptive scheme in tetrahedral subdivision provide volumetric and smooth cuts on large virtual objects. 3D MRI datasets are applied to a developed system with a force feedback device. Measurement of the calculation time and visualization of simulation quality confirms that the framework contributes to surgical planning and training with tissue cutting.
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Pflesser B., Leuwer R., Tiede U. Hohne, K. H.: Planning and Rehearsal of Surgical Interventions in the Volume Model. Proceedings of Medicine Meets Virtual Reality, (2000) 259–264
Kuhnapfel U., Cakmak H.K., Mass H.: Endoscopic Surgery Training Using Virtual Reality and Deformable Tissue Simulation. Computers and Graphics, Vol. 24. (2000) 671–682
M. Nakao, T. Kuroda, H. Oyama, M. Komori, T. Matsuda, T. Takahashi: Planning and training of minimally invasive surgery by integrating soft tissue cuts with surgical views reproduction, In Proceedings of Computer Assisted Radiology and Surgery, (2002)
C. Bruyns, K. Montgomery, S. Wildermuth: A Virtual Environment for Simulated Rat Dissection. Proceedings of Medicine Meets Virtual Reality, (2001) 75–81
D. Bielser, M. H. Gross: Interactive Simulation of Surgical Cuts. Proceedings of Pacific Graphics, (2000)116–125
S. Cotin, D. Herve, N. Ayache: A hybrid elastic model for real-time cutting, deformations, and force feedback for surgery training and system. The Visual Computer, Vol. 16, (2000) 437–452
L. P. Nedel and D. Thalmann: Real time muscle deformations using mass-spring systems, Computer Graphics International. (1998) 156–165
C. Basdogan, Chih-Hao Ho, M. A. Srinivasan, Simulation of Tissue Cutting and Bleeding for Laparoscopic Surgery Using Auxiliary Surfaces, Proceedings of Medicine Meets Virtual Reality 8, (1999) 38–44
S.Z. Pirzadeh, “An Adaptive Unobstructed Grid Method by Grid Subdivision, Local Remeshing, and Grid Movement”, AIAA Paper 99-3255, 1999
D. Ruspini, K. Kolarov, O. Khatib, The Haptic Display of Complex Graphical Environments, Proceedings of Computer Graphics, (1997) 345–352
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© 2002 Springer-Verlag Berlin Heidelberg
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Nakao, M., Kuroda, T., Oyama, H., Komori, M., Matsuda, T., Takahashi, T. (2002). Combining Volumetric Soft Tissue Cuts for Interventional Surgery Simulation. In: Dohi, T., Kikinis, R. (eds) Medical Image Computing and Computer-Assisted Intervention — MICCAI 2002. MICCAI 2002. Lecture Notes in Computer Science, vol 2489. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-45787-9_23
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DOI: https://doi.org/10.1007/3-540-45787-9_23
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