Nikita Shevchenko, Sonja Gillen, Hubertus Feußner, Tim C. Lüth
[1] B. Levin, D. A. Lieberman, B. Mcfarland, K. S. A ndrews,D. Brooks, J. Bond, C. Dash, F. M. Giardiello, S. Glick, D.Johnson, C. D. Johnson, T. R. Levin, P. J. Pickhardt, D. K.Rex , R. A. Smith , A. Thorson, and S. J. Winawer, Screeningand Surveillance for the Early Detection of Colorectal Cancerand Adenomatous Polyps, 2008: A Joint Guideline From theAmerican Cancer Society, the US Multi-Society Task Force onColorectal Cancer, and the American College of Radiology,Gastroenterology 2008, 134, pp. 1570–1595. [2] J. Heiken, C. Peterson, C. Menias, Virtual colonoscopy forcolorectal cancer screening: current status, Cancer Imaging.(2005) 5, pp. 133–139. [3] R. Van Uitert, I. Bitter, R. Summers, Detection of ColonWall Outer Boundary and Segmentation of the Colon WallBased on Level Set Methods, Engineering in Medicine andBiology Society, EMBS '06, 28th Annual InternationalConference of the IEEE, Aug. 30 – Sept. 3 2006, pp. 3017–3020. [4] M. Franaszek, R. Summers, P. Pickhardt, J. Choi, Hybridsegmentation of colon filled with air and opacified fluid for CTcolonography, Medical Imaging, IEEE Transactions on, March2006, vol. 25, no. 3, pp. 358–368. [5] V. Taimouri, X. Liu, Z. Lai, C. Liu, D. Pai, J. Hua, ColonSegmentation for Prepless Virtual Colonoscopy, InformationTechnology in Biomedicine, IEEE Transactions on, Sept. 2011,vol.15, no.5, pp.709–715. [6] R. Palser, R. Jamieson, J. B. Sutherland, L. Skibo, Three-dimensional lithographic model building from volume data sets,Can Assoc Radiol J, vol. 41, no. 6, 1990, pp. 339–341. [7] H. Klein, W. Schneider, J. Nawrath, T. Gernot, E. Voy, R.Krasny, Stereolithographic model construction based on 3-dimensional reconstructed CT sectional image sequences, RoFo,vol. 156, no. 5, 1992, pp. 429–432. [8] W. Dittmann, J. Bill, G. Wittenberg, J. Reuther, and K.Roosen, Stereolithography as a new method of reconstructivesurgical planning in complex osseous defects of the cranial base,Zentralbl Neurochir, vol. 55, no. 4, 1994, pp. 209–211. [9] J. S. Bill, J. F. Reuther, W. Dittmann, N. Kbler, J. L. Meier,H. Pistner, and G. Wittenberg, ”Stereolithography in oral andmaxillofacial operation planning,”, Int J Oral Maxillofac Surg,vol. 24, no. 1, 1995, pp. 98–103. [10] S. Weber, R. Sodian, M. Markert, B. Reichart, S. Dbritz, T.C. Lueth, 3D printing of anatomical heart models for surgicalplanning in cardiac surgery, Int J Comput Assist Radiol Surg,vol. 2, suppl. 1, 2007, pp. 171–173. [11] J. Schwaiger, M. Kagerer, M. Traeger, S. Gillen, M-Dobritz, J. Kleef, H. Feussner, T. C. Lueth, Manufacturing ofpatient-specific pancreas models for surgical resections, 2012IEEE International Conference on Robotics and Biomimetics,submitted for publication [12] R. C. Gonzalez and R.E. Woods, Digital Image Processing2nd Edition, Prentice Hall, New Jersey, 2002, pp. 613–615. [13] William E. Lorensen, Harvey E. Cline: Marching Cubes: Ahigh resolution 3D surface construction algorithm. In: ComputerGraphics, Vol. 21, Nr. 4, Juli 1987, S. pp. 163–169. [14] T. Saito and J. Toriwaki, New algorithms for Euclideandistance transformations of an n-dimensional digitised picturewith applications, Pattern Recognition 27, 11, 1994 pp. 1551–1565.
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