A hybrid deformable model for real-time surgical simulation

Computerized Medical Imaging and Graphics

Volumn 36, Issue 5, 2012, Pages 356-365

  Zhu, Bo ^a   Gu, Lixu ^a  

^a SHANGHAI JIAO TONG UNIVERSITY   (China)

Author keywords

Boundary element method; Deformable modeling; Physical simulation; Virtual surgery simulation

Indexed keywords

BIOLOGICAL SOFT TISSUE; DEFORMABLE MODELING; DEFORMABLE MODELS; DYNAMIC BEHAVIORS; GLOBAL DEFORMATIONS; HAPTIC FEEDBACKS; HIGH RESOLUTION; HYBRID MODEL; MASS-SPRING MODELS; MINIMALLY INVASIVE; ORGAN DEFORMATION; PARTICLE SURFACE; PHYSICAL SIMULATION; REAL TIME; RENDERING MESHES; SOFT TISSUE; SURFACE MESH; SURGERY SIMULATIONS; SURGICAL ENVIRONMENT; SURGICAL INSTRUMENT; SURGICAL SIMULATION; SURGICAL TRAINING SYSTEMS; TEMPORAL BEHAVIOR; TRAINING SYSTEMS; VIRTUAL SURGERY;

BOUNDARY ELEMENT METHOD; DEFORMATION; MESH GENERATION; SURGERY; SURGICAL EQUIPMENT; TISSUE;

HAPTIC INTERFACES;

ACCURACY; ARTICLE; BOUNDARY ELEMENT METHOD; HYBRID DEFORMABLE MODEL; MODEL; PRIORITY JOURNAL; PROCEDURES; REAL TIME SURGICAL SIMULATION; SIMULATION; SOFT TISSUE; SURGICAL EQUIPMENT; SURGICAL TRAINING; TACTILE FEEDBACK; VIRTUAL REALITY MODELING LANGUAGE; VISCOSITY;

BIOFEEDBACK, PSYCHOLOGY; COMPUTER SIMULATION; COMPUTER-ASSISTED INSTRUCTION; ELASTIC MODULUS; HEPATECTOMY; HUMANS; IMAGE ENHANCEMENT; IMAGING, THREE-DIMENSIONAL; LIVER; MODELS, BIOLOGICAL; REPRODUCIBILITY OF RESULTS; SENSITIVITY AND SPECIFICITY; SURGERY, COMPUTER-ASSISTED; TOUCH; USER-COMPUTER INTERFACE;

EID: 84861333922     PISSN: 08956111     EISSN: 18790771     Source Type: Journal    
DOI: 10.1016/j.compmedimag.2012.03.001     Document Type: Article

References (41)

1. Barbic J., James D.L. Real-time subspace integration for St. Venant-Kirchhoff deformable models. ACM Trans Graphics (SIGGRAPH 2005) 2005, 24(3):982-990.
2. Bell N., Yu Y., Mucha P.J. Particle-based simulation of granular materials. SCA '05: proceedings of the 2005 ACM SIGGRAPH/eurographics symposium on computer animation 2005, 77-86. ACM, New York, NY, USA.
3. Brebbia C.A., Telles J.C.F., Wrobel L.C. Boundary element techniques: theory and applications in engineering 1984, Springer-Verlag, New York.
4. Chanthasopeephan T., Desai J.P., Lau A.C.W. Modeling soft-tissue deformation prior to cutting for surgical simulation: finite element analysis and study of cutting parameters. #IEEE_J_BME# 2007, 54(3):349-359.
5. Chen X., Wechsler H., Pullen J.M., Zhu Y., MacMahon E.B. Knee surgery assistance: patient model construction, motion simulation, and biomechanical visualization'. IEEE Trans Biomed Eng 2001, 48(9):1042-1052.
6. Chentanez N., Alterovitz R., Ritchie D., Cho L., Hauser K.K., Goldberg K., et al. Interactive simulation of surgical needle insertion and steering. Proceedings of ACM SIGGRAPH 2009 2009.
7. Choi K.-S., Soo S., Chung F.-L. A virtual training simulator for learning cataract surgery with phacoemulsification. Comput Biol Med 2009, 39(11):1020-1031.
8. Choi K.-S., Sun H., Heng P.-A. 'An efficient and scalable deformable model for virtual reality-based medical applications'. Artif Intell Med 2004, 32(1):51-69.
9. Hartmann F. Introduction to boundary elements: theory and applications 1989, Springer-Verlag, Berlin.
10. Fung Y.C. Biomechanics: mechanical properties of living tissues 1993, Springer-Verlag, New York. 2nd ed.
11. Hauser K.K., Shen C., O'Brien J.F. Interactive deformation using modal analysis with constraints. Graphics interface 2003, A K Peters, p. 247-56.
12. James D.L., Pai D.K. ArtDefo: accurate real time deformable objects. SIGGRAPH '99: proceedings of the 26th annual conference on computer graphics and interactive techniques 1999, ACM Press/Addison-Wesley Publishing Co, New York, NY, USA, p. 65-72.
13. James D.L., Pai D.K. DyRT: dynamic response textures for real time deformation simulation with graphics hardware 2002, ACM, New York, NY, USA, p. 582-5.
14. James D.L., Pai D.K. Multiresolution green's function methods for interactive simulation of large-scale elastostatic objects. ACM Trans Graph 2003, 22(1):47-82.
15. Kim J., Choi C., De Mandayam S., Srinivasan A. Virtual surgery simulation for medical training using multi-resolution organ models. Int J Med Rob Comp Assist Surg 2007, 3(2):149-158.
16. Keiser R. Meshless Lagrangian methods for physics-based animations of solids and fluids 2006, ETH. 10.3929/ethz-a-005330494.
17. Kenedi R.M., Gibson T., Evans J.H., Barbenel J.C. Tissues mechanics. Phys. Med. Biol. 1975, 20(5):699-717.
18. Lee T.-Y., Sun Y.-N., Lin Y.-C., Lin L., Lee C. Three-dimensional facial model reconstruction and plastic surgery simulation. IEEE Trans Inf Technol Biomed 1999, 3(3):214-220.
19. Becker M.M., Ihmsen M.T. Corotated SPH for deformable solids. Proc. eurographics workshop on natural phenomena 2009.
20. Morris D., Sewell C., Blevins N.H., Barbagli F., Salisbury K. A collaborative virtual environment for the simulation of temporal bone surgery. MICCAI (2) 2004, Springer, p. 319-327. C. Barillot, D.R. Haynor, P. Hellier (Eds.).
21. Müller M., Dorsey J., McMillan L., Jagnow R., Cutler B. Stable real-time deformations. SCA '02: proceedings of the 2002 ACM SIGGRAPH/eurographics symposium on computer animation 2002, 49-54. ACM, New York, NY, USA.
22. Müller M., Heidelberger B., Teschner M., Gross M. Meshless deformations based on shape matching. SIGGRAPH '05: ACM SIGGRAPH 2005 papers 2005, 471-478. ACM, New York, NY, USA.
23. Müller M., Keiser R., Nealen A., Pauly M., Gross M., Alexa M. Point based animation of elastic, plastic and melting objects. SCA '04: proceedings of the 2004 ACM SIGGRAPH/eurographics symposium on computer animation 2004, Eurographics Association, Aire-la-Ville, Switzerland, Switzerland, p. 141-51.
24. Müller M., Teschner M., Gross M. Physically based simulation of objects represented by surface meshes. Proc. Comput. Graph. Int 2004, p. 156-65.
25. Nealen A., Mueller M., Keiser R., Boxerman E., Carlson M. Physically based deformable models in computer graphics. Comp Graphics Forum 2006, 25(4):809-836.
26. Nesme M., Marchal M., Promayon E., Chabanas M., Payan Y., Faure F. Physically realistic interactive simulation for biological soft tissues. Recent Res. Develop. Biomech. 2005, 2:1-22.
27. Sokhanvar S., Dargahi J., Packirisamy M Hyperelastic modelling and parametric study of soft tissue embedded lump for MIS applications. Int J Med Rob Comput Assist Surg 2008, 4(3):232-241.
28. Crouch S.L., Starfield A.M. Boundary element methods in solid mechanics 1990, Unwin Hyman Inc, London.
29. Santhanam A.P., Imielinska C., Davenport P., Kupelian P., Rolland J.P. Modeling real-time 3D lung deformations for medical visualization. IEEE Trans Inf Technol Biomed 2008, 12(2):257-270.
30. Tahmasebi A., Hashtrudi-Zaad K., Thompson D., Abolmaesumi P. A framework for the design of a novel haptic-based medical training simulator. IEEE Trans Info Technol Biomed 2008, 12(5):658-666.
31. Harada T., Masayuki Tanaka S.K.Y.K. Real-time coupling of fluids and rigid bodies. APCOM '07 in conjunction with EPMESC XI 2007.
32. Teschner M., Heidelberger B., Mueller M., Pomeranets D., Gross M. Optimized spatial hashing for collision detection of deformable objects 2003, p. 47-54.
33. Teschner M., Heidelberger B., Muller M., Gross M. A versatile and robust model for geometrically complex deformable solids. CGI '04: proceedings of the computer graphics international 2004, IEEE Computer Society, Washington, DC, USA, p. 312-9.
34. Wang P., Becker A.A., Jones I.A., Glover A.T., Benford S., Greenhalgh C., et al. A virtual reality surgery simulation of cutting and retraction in neurosurgery with force-feedback. Comput Methods Programs Biomed 2006, 84(1):11-18.
35. Wang P., Becker A., Jones I., Glover A., Benford S., Greenhalgh C., et al. Virtual reality simulation of surgery with haptic feedback based on the boundary element method. Comput Struct 2007, 85(7-8):331-339.
36. Li X., Gu L., Zhang S., Zhang J., Zheng G., Huang P., et al. Hierarchical spatial hashing based collision detection and hybrid collision response in a haptic surgery simulator. Int J Med Rob Comput Assist 2008, (4):77-86.
37. Zaonyi J., Paget R., Szekely G., Grassi M., Bajka M. Real-time synthesis of bleeding for virtual hysteroscopy. Med Image Anal 2005, 9(3):255-266.
38. Zhang J., Gu L., Li X., Fang M. An advanced hybrid cutting method with an improved state machine for surgical simulation. Comput Med Imaging Graph 2009, 33(1):63-71.
39. Zhu B., Gu L., Zhang J., Yan Z., Pan L., Zhao Q. Simulation of organ deformation using boundary element method and meshless shape matching. Engineering in Medicine and Biology Society, 2008. EMBS 2008. 30th Annual International Conference of the IEEE 2008, 3253-3256.
40. Zhu B., Gu L., Peng X., Zhou Z. A point-based simulation framework for minimally invasive surgery. Proc. of the 5th International Symposium on Computational Models for Biomedical Simulation 2010, 130-138.
41. Zhu B., Gu L., Zhou Z. Particle-based deformable modeling with pre-computed surface data in real-time surgical simulation. To appear in Proc. of 5th international workshop on medical imaging and augmented reality 2010.