2 research outputs found
Robust GPU-based Virtual Reality Simulation of Radio Frequency Ablations for Various Needle Geometries and Locations
Purpose: Radio-frequency ablations play an important role in the therapy of
malignant liver lesions. The navigation of a needle to the lesion poses a
challenge for both the trainees and intervening physicians. Methods: This
publication presents a new GPU-based, accurate method for the simulation of
radio-frequency ablations for lesions at the needle tip in general and for an
existing visuo-haptic 4D VR simulator. The method is implemented real-time
capable with Nvidia CUDA. Results: It performs better than a literature method
concerning the theoretical characteristic of monotonic convergence of the
bioheat PDE and a in vitro gold standard with significant improvements (p <
0.05) in terms of Pearson correlations. It shows no failure modes or
theoretically inconsistent individual simulation results after the initial
phase of 10 seconds. On the Nvidia 1080 Ti GPU it achieves a very high frame
rendering performance of >480 Hz. Conclusion: Our method provides a more robust
and safer real-time ablation planning and intraoperative guidance technique,
especially avoiding the over-estimation of the ablated tissue death zone, which
is risky for the patient in terms of tumor recurrence. Future in vitro
measurements and optimization shall further improve the conservative estimate.Comment: 18 pages, 14 figures, 1 table, 2 algorithms, 2 movie