Endonasal sinus surgery requires a great amount of training before it can be adequately performed. The complicated anatomy involved, the proximity of relevant structures, and the variability of the anatomy due to inborn or iatrogenic variations make several complications possible. Today, cadaver dissections are the "gold standard" for surgical training. To overcome the drawbacks of traditional training methods, the Fraunhofer Institute for Computer Graphics is currently developing a highly interactive medical simulation system for nasal endoscopy and endonasal sinus surgery, in cooperation with the Mainz University Hospital. For the simulation of a rhinoscopic procedure, not only are the realization of the 3D interaction and the geometric representation of the anatomical structures necessary, but also a real-time simulation of the deformation behavior constrained by the instrument collisions. The challenge is to close the gap between a maximal degree of realism and the required real-time conditions.
[1]
S. Bryson.
Paradigms for the shaping of surfaces in a virtual environment
,
1992,
Proceedings of the Twenty-Fifth Hawaii International Conference on System Sciences.
[2]
Leif Kobbelt,et al.
Using Simulated Annealing to Obtain Good Nodal Approximations of Deformable Bodies
,
1995
.
[3]
D. Caldarelli,et al.
A review of revision functional endoscopic sinus surgery
,
1994,
The Laryngoscope.
[4]
Adam Shapiro,et al.
Endoscopic sinus surgery: 4‐year follow‐up on the first 100 patients
,
1993,
The Laryngoscope.