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Real-time tumor ablation simulation based on the dynamic mode decomposition method.

Authors :
Bourantas, George C.
Ghommem, Mehdi
Kagadis, George C.
Katsanos, Konstantinos
Loukopoulos, Vassilis C.
Burganos, Vasilis N.
Nikiforidis, George C.
Source :
Medical Physics. May2014, Vol. 41 Issue 5, p1-N.PAG. 11p.
Publication Year :
2014

Abstract

Purpose: The dynamic mode decomposition (DMD) method is used to provide a reliable forecasting of tumor ablation treatment simulation in real time, which is quite needed in medical practice. To achieve this, an extended Pennes bioheat model must be employed, taking into account both the water evaporation phenomenon and the tissue damage during tumor ablation. Methods: A meshless point collocation solver is used for the numerical solution of the governing equations. The results obtained are used by the DMD method for forecasting the numerical solution faster than the meshless solver. The procedure is first validated against analytical and numerical predictions for simple problems. The DMD method is then applied to three-dimensional simulations that involve modeling of tumor ablation and account for metabolic heat generation, blood perfusion, and heat ablation using realistic values for the various parameters. Results: The present method offers very fast numerical solution to bioheat transfer, which is of clinical significance in medical practice. It also sidesteps the mathematical treatment of boundaries between tumor and healthy tissue, which is usually a tedious procedure with some inevitable degree of approximation. The DMD method provides excellent predictions of the temperature profile in tumors and in the healthy parts of the tissue, for linear and nonlinear thermal properties of the tissue. Conclusions: The low computational cost renders the use of DMD suitable for in situ real time tumor ablation simulations without sacrificing accuracy. In such a way, the tumor ablation treatment planning is feasible using just a personal computer thanks to the simplicity of the numerical procedure used. The geometrical data can be provided directly by medical image modalities used in everyday practice. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00942405
Volume :
41
Issue :
5
Database :
Academic Search Index
Journal :
Medical Physics
Publication Type :
Academic Journal
Accession number :
95911258
Full Text :
https://doi.org/10.1118/1.4870976