Biomedical Engineering Reference
In-Depth Information
7. Miller, K., Wittek, A., Joldes, G., Horton, A., Dutta-Roy, T., Berger, J., Morriss, L.: Modelling
brain deformations for computer-integrated neurosurgery. Int. J. Numer. Meth. Biomed. Eng.
26, 117-138 (2010)
8. Horton, A., Wittek, A., Joldes, G.R., Miller, K.: A meshless total Lagrangian explicit dynamics
algorithm for surgical simulation. Int. J. Numer. Meth. Biomed. Eng. 26, 977-998 (2010)
9. Lancaster, P., Salkauskas, K.: Surfaces generated by moving least squares methods. Math.
Comput. 37, 141-158 (1981)
10. Pham, D.L., Prince, J.L.: Adaptive fuzzy segmentation of magnetic resonance images. IEEE
Trans. Med. Imag. 18, 737-752 (1999)
11. Smith, S.M.: Fast robust automated brain extraction. Hum. Brain Mapp. 17, 143-155 (2002)
12. Joldes, G.R., Wittek, A., Miller, K.: Non-locking tetrahedral finite element for surgical
simulation. Comm. Numer. Meth. Eng. 25(7), 827-836 (2008)
13. Christensen, G.E., Johnson, H.J.: Consistent image registration. IEEE Trans. Med. Imag. 20,
568-582 (2001)
14. Wittek, A., Miller, K., Kikinis, R., Warfield, S.: Patient-specific model of brain deformation:
application to medical image registration. J. Biomech. 40, 919-929 (2007)
15. Joldes, G.R., Wittek, A., Miller, K.: Suite of finite element algorithms for accurate computa-
tion of soft tissue deformation for surgical simulation. Med. Image Anal. 13, 912-919 (2009)
16. Warfield, S.K., Ferrant, M., Gallez, X., Nabavi, A., Jolesz, F.A., Kikinis, R.: Real-time
biomechanical simulation of volumetric brain deformation for image guided neurosurgery.
SC 2000: High Performance Networking and Computing Conference 230, 1-16 (2000)
17. Joldes, G., Wittek, A., Couton, M., Warfield, S., Miller, K.: Real-Time Prediction of Brain
Shift Using Nonlinear Finite Element Algorithms. Medical Image Computing and Computer-
Assisted Intervention - MICCAI 2009, 300-307 (2009)
18. Clatz, O., Delingette, H., Bardinet, E., Dormont, D., Ayache, N.: Patient specific biomechani-
cal model of the brain: application to Parkinson's disease procedure. In: International Sympo-
sium on Surgery Simulation and Soft Tissue Modeling (IS4TM'03) (2003)
19.
ˇ
krinjar, O., Nabavi, A., Duncan, J.: A stereo-guided biomechanical model for volumetric
deformation analysis. pp. 95-102 (2001)
20. Miller, K.: Biomechanics of Brain for Computer Integrated Surgery. Publishing House of
Warsaw University of Technology, Warsaw (2002)
21. Miller, K.: Biomechanics of the Brain. Springer, New York (2011)
22. Miga, M.I., Sinha, T.K., Cash, D.M., Galloway, R.L., Weil, R.J.: Cortical surface registration
for image-guided neurosurgery using laser-range scanning. IEEE Trans. Med. Imag. 22,
973-985 (2003)
23. Miller, K., Joldes, G., Lance, D., Wittek, A.: Total Lagrangian explicit dynamics finite element
algorithm for computing soft tissue deformation. Comm. Numer. Meth. Eng. 23, 121-134
(2007)
24. Joldes, G.R., Wittek, A., Miller, K., Morriss, L.: Realistic and efficient brain-skull interaction
model for brain shift computation. Computational Biomechanics for Medicine III Workshop,
MICCAI (2008)
25. Joldes, G.R., Wittek, A., Miller, K.: Computation of intra-operative brain shift using dynamic
relaxation. Comput. Meth. Appl. Mech. Eng. 198, 3313-3320 (2009)
