Stefan Scheiner


  1. [1] O.E. Langland, R.P. Langlais, and J. Preece. Prin-ciples of Dental Imaging. Lippincott Williams &Wilkins, 2nd edition, 2002.
  2. [2] A. Wenzel, N. Pitts, E.H. Verdonschot, and H. Kals-beek. Developments in radiographic caries diagnosis.Journal of Dentistry, 21(3):131–140, 1993.
  3. [3] I. Kashima, K. Tajima, K. Nishimura, R. Yamane,M. Saraya, Y. Sasakura, and M. Takano. Diagnos-tic imaging of diseases affecting the mandible withthe use of computed panoramic radiography. OralSurgery, Oral Medicine, Oral Pathology, 70(1):110–116, 1990.
  4. [4] E.O. Crawley, W.D. Evans, and G.M. Owen. A theo-retical analysis of the accuracy of single-energy CTbone-mineral measurements. Physics in Medicineand Biology, 33(10):1113–1127, 1988.
  5. [5] C. Hellmich, C. Kober, and B. Erdmann.Micromechanics-based conversion of CT datainto anisotropic elasticity tensors, applied to FEsimulations of a mandible. Annals of BiomedicalEngineering, 36(1):108–122, 2008.
  6. [6] S. Scheiner, R. Sinibaldi, B. Pichler, V. Kom-lev, C. Renghini, C. Vitale-Brovarone, F. Rus-tichelli, and C. Hellmich. Micromechanics ofbone tissue-engineering scaffolds, based on resolu-tion error-cleared computer tomography. Biomateri-als, 30(12):2411–2419, 2009.
  7. [7] J.-Y. Rho, L. Kuhn-Spearing, and P. Zioupos. Me-chanical properties and the hierarchical structure ofbone. Medical Engineering and Physics, 20(2):92–102, 1998.
  8. [8] T.M. Keaveny and J.M. Buckley. Biomechanics ofvertebral bone. In S.M. Kurtz and A.A. Edidin, ed-itors, Spine Technology Handbook, chapter 4, pages63–98. Elsevier Academic Press, 2006.
  9. [9] F.-V. Salomon. Kn¨ochernes Skelett [Bony Skeleton].In F.-V. Salomon, H. Geyer, and U. Gille, editors,Anatomie f¨ur die Tiermedizin [Anatomy for veterinarymedicine], chapter 2.5, pages 37–110. Enke Verlag, 2edition, 2008. In German.
  10. [10] D.J. Daegling. Bone geometry in cercopithecoidmandibles. Archives of Oral Biology, 47(4):315–325,2002.
  11. [11] D.F. Jackson and D.J. Hawkes. X-ray attenuation co-efficients of elements and mixtures. Physics Reports,70(3):169–233, 1981.
  12. [12] T. Grassler and K.-E. Wirth. X-ray computer to-mography – potential and limitation for the measure-ment of local solids distribution in circulating flu-idized beds. Chemical Engineering Journal, 77(1-2):65–72, 2000.
  13. [13] R.M. Leahy and R. Clackdoyle. Computed tomog-raphy. In A. Bovik, editor, Handbook of Image &Video Processing, chapter 10.2, pages 1155–1174.Academic Press, 2 edition, 2005.
  14. [14] R.P.C. Schram. X-ray attenuation: Application of X-ray imaging for density analysis. Technical report,Nuclear Research Group, Petten, The Netherlands,2001.
  15. [15] P.-C. Chiu, Y.-H. Yan, L.-M. Lin, and P.-S. Chang.Attenuation of X-ray in muscle and alveolar boneduring mandibular premolar periapical radiographicprocedure. Kaohsiung Journal of Medical Sciences,13(10):631–634, 1997.
  16. [16] C. Verna, B. Melsen, and F. Melsen. Differences instatic cortical bone remodeling parameters in humanmandible and iliac crest. Bone, 25(5):577–583, 1999.
  17. [17] V.J. Kingsmill, C.M. Gray, D.R. Moles, andA. Boyde. Cortical vascular canals in humanmandible and other bones. Journal of Dental Re-search, 86(4):368–372, 2007.
  18. [18] G.A.P. Renders, L. Mulder, L.J. van Ruijven, andT.M.G.J. van Eijden. Porosity of human mandibularcondylar bone. Journal of Anatomy, 210(3):239–248,2007.
  19. [19] R.B. Martin, D.B. Burr, and N.A. Sharkey. SkeletalTissue Mechanics. Springer Verlag, 1998.

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