Crepuscular rays for tumor accessibility planning

Khlebnikov R, Kainz B, Muehl J, Schmalstieg D (2011)

Publication Type: Journal article

Publication year: 2011


Book Volume: 17

Pages Range: 2163-2172

Article Number: 6064981

Journal Issue: 12

DOI: 10.1109/TVCG.2011.184


In modern clinical practice, planning access paths to volumetric target structures remains one of the most important and most complex tasks, and a physician's insufficient experience in this can lead to severe complications or even the death of the patient. In this paper, we present a method for safety evaluation and the visualization of access paths to assist physicians during preoperative planning. As a metaphor for our method, we employ a well-known, and thus intuitively perceivable, natural phenomenon that is usually called crepuscular rays. Using this metaphor, we propose several ways to compute the safety of paths from the region of interest to all tumor voxels and show how this information can be visualized in real-time using a multi-volume rendering system. Furthermore, we show how to estimate the extent of connected safe areas to improve common medical 2D multi-planar reconstruction (MPR) views. We evaluate our method by means of expert interviews, an online survey, and a retrospective evaluation of 19 real abdominal radio-frequency ablation (RFA) interventions, with expert decisions serving as a gold standard. The evaluation results show clear evidence that our method can be successfully applied in clinical practice without introducing substantial overhead work for the acting personnel. Finally, we show that our method is not limited to medical applications and that it can also be useful in other fields. © 2011 IEEE.

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Khlebnikov, R., Kainz, B., Muehl, J., & Schmalstieg, D. (2011). Crepuscular rays for tumor accessibility planning. IEEE Transactions on Visualization and Computer Graphics, 17(12), 2163-2172.


Khlebnikov, Rostislav, et al. "Crepuscular rays for tumor accessibility planning." IEEE Transactions on Visualization and Computer Graphics 17.12 (2011): 2163-2172.

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